This is file "LCDfg.h".
//============================================================================== // Copyright (c) 2005-2010, Isaac Marino Bavaresco // All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are met: // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Neither the name of the author nor the // names of its contributors may be used to endorse or promote products // derived from this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE AUTHOR ''AS IS'' AND ANY // EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED // WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE // DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY // DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES // (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; // LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND // ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS // SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. //============================================================================== // isaacbavaresco@yahoo.com.br //============================================================================== // Set TAB width to 4 characters //============================================================================== #if !defined __LCD_CFG_H__ #define __LCD_CFG_H__ //============================================================================== // This version is taylored for my board and Hi-Tech PICC. // Change this file for your own needs. //============================================================================== // // PIC16F648A // // +-----------------U-----------------+ // | | // LCD_D6 <- ==| 1 RA2/AN2/Vref AN1/RA1 18 |== -> LCD_D5 // | | // LCD_D7 <- ==| 2 RA3/AN3/CMP1 AN0/RA0 15 |== -> LCD_D4 // | | // <- ==| 3 RA4/T0CKI/CMP2 OSC1/RA7 16 |== <x // | | // -> ==| 4 RA5/!MCLR OSC2/RA6 15 |== x> // | | // ==| 5 GND VCC 14 |== // | | // <- ==| 6 RB0/INT T1OSI/RB7 13 |== -> LCD_E // | | // RXD -> ==| 7 RB1/RX/DT T1CKI/T1OSO/RB6 12 |== -> LCD_RW // | | // TXD <- ==| 8 RB2/TX/CK RB5 11 |== -> LCD_RS // | | // <- ==| 9 RB3/CCP1 RB4 10 |== -> // | | // +-----------------------------------+ // // //============================================================================== #include <pic.h> //============================================================================== // Define this macro if your board uses the LCD R/!W pin. #define USE_READ_PIN // Define this macro if you want to detect when the LCD is not connected or is // damaged. Works only if using the R/!W pin. #define DETECT_FAILURE // Number of repetitions before signailng a defective display. #define NUMBER_OF_READS_TIMEOUT 2000 // Define this macro if your board uses four bit interface. #define USE_FOUR_BIT_INTERFACE //============================================================================== //============================================================================== //============================================================================== //============================================================================== // Helper macros. Depend on your board. #define DATAPORT_OUT PORTA #define DATAPORT_IN PORTA #define DATAPORT_DIR TRISA #define LCD_E RB7 #define LCD_E_DIR TRISB7 #define LCD_RW RB6 #define LCD_RW_DIR TRISB6 #define LCD_DI RB5 #define LCD_DI_DIR TRISB5 //============================================================================== // These macros depend on the model of your LCD module. // The size your screen will have at startup. #define INITIAL_MAXX 16 #define INITIAL_MAXY 2 // The maximum size your screen may have. Larger sizes will use more RAM if your // board doesn't use the R/!W pin, because a screen-buffer is kept in RAM to // allow scroll operations. #define MAXIMUM_MAXX 16 #define MAXIMUM_MAXY 2 // The usual is 8, but 4 is more useful for such a narrow display. #define TAB_WIDTH 4 // This define activates the delayed scroll. // In normal scroll mode, the screen scrolls when a character is shown on the // last column of the last line of the screen. In delayed scroll mode, the // screen scrolls only after one more character is shown. #define USE_DELAYED_SCROLL //============================================================================== // Interrupt-related macros // If you don't need to disable interrupts, just define them all as empty macros // The macro 'DeclareIntSaveVar' must declare 's' with a type suitable to hold // the CPU's current interrupts (enabled/disabled) state #define DeclareIntSaveVar( s ) unsigned char s // The macro 'SaveInterruptsState' must save the current interrupts state to 's' #define SaveInterruptsState( s ) (( s ) = INTCON & 0xc0 ) // The macro 'RestoreInterruptsState' must restore the previous interrupts state // from 's' #define RestoreInterruptsState( s ) ( INTCON = INTCON | ( s )) // The macro 'DisableInterrupts' must disable all interrupts that may interfere // with the LCD interface (for instance, an interrupt that uses the LCD interface // pins to scan a keyboard) #define DisableInterrupts() ( INTCON = INTCON & 0x3f ) //============================================================================== // Data port manipulation macros // The macro 'SetDataPortAsInputs' must set the data port bits (4 or 8, // depending on the used mode) as inputs #define SetDataPortAsInputs() ( DATAPORT_DIR |= 0x0f ) // The macro 'SetDataPortAsOutputs' must set the data port bits (4 or 8, // depending on the used mode) as outputs #define SetDataPortAsOutputs() ( DATAPORT_DIR &= 0xf0 ) // In 8-bit mode, the macro 'ReadDataPortValue' must read all 8 bits of the // data port to 's', in 4-bit mode it must read the 4 bits of the data // port to the higher 4 bits of 's' #define ReadDataPortValue( s ) (( s ) = DATAPORT_IN << 4 ) // In 8-bit mode, the macro 'SetDataPortValue' must output all the 8 bits of 's' // to the data port, in 4-bit mode it must output the higher 4 bits of 's' to the // data port #define SetDataPortValue( s ) ( DATAPORT_OUT = DATAPORT_OUT & 0xf0 | ((( s ) >> 4 ) & 0x0f )) // The following macros are only needed if you are using 4-bit interface #if defined USE_FOUR_BIT_INTERFACE // The macro 'ReadDataPortValueLow' must read the 4 bits of the data // port to the lower 4 bits of 's' without disturbing its 4 higher bits. #define ReadDataPortValueLow( s ) (( s ) |= DATAPORT_IN & 0x0f ) // The macro 'SetDataPortValueLow' must output the lower 4 bits of 's' to // the data port. #define SetDataPortValueLow( s ) ( DATAPORT_OUT = DATAPORT_OUT & 0xf0 | (( s ) & 0x0f )) #endif // defined USE_FOUR_BIT_INTERFACE //============================================================================== // Control pins manipulation macros #if defined USE_READ_PIN #define SetRWAsRead() ( LCD_RW = 1 ) #define SetRWAsWrite() ( LCD_RW = 0 ) #define SetRWAsOutput() ( LCD_RW_DIR = 0 ) #else // defined USE_READ_PIN #define SetRWAsRead() #define SetRWAsWrite() #define SetRWAsOutput() #endif // defined USE_READ_PIN #define SetDIValue( s ) ( LCD_DI = ( s )) #define SetDIAsData() ( LCD_DI = 1 ) #define SetDIAsInstruction() ( LCD_DI = 0 ) #define SetDIAsOutput() ( LCD_DI_DIR = 0 ) #define SetEAsEnabled() ( LCD_E = 1 ) #define SetEAsDisabled() ( LCD_E = 0 ) #define SetEAsOutput() ( LCD_E_DIR = 0 ) //============================================================================== void Delay_us( unsigned short t ); // Delay macros. #define Delay500ns() NOP() //#define Delay37us() Delay_us( 37 ) #define Delay100us() Delay_us( 100 ) //#define Delay1520us() Delay_us( 1520 ) #define Delay4100us() Delay_us( 4100 ) #define Delay15ms() Delay_us( 15000 ) //============================================================================== // Macro or prototype for the function 'Beep'. Define it as an empty macro if // your board doesn't have a buzzer or the like. #define Beep() //============================================================================== // This macro defines the name that your 'putc' function must have to be linked // with the library functions ('printf', etc). // For MPLAB-C18 it is '_user_putc', for Hi-Tech PICC it is 'putch'. #define LCD_PUTC putch //============================================================================== #endif // !defined __LCD_CFG_H__ //==============================================================================
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