FreeCalypso > hg > fc-tourmaline
view src/cs/drivers/drv_app/r2d/lcds/E_Sample/lcd_if.c @ 276:4221c724c664
R2D: preparations for adding LCD hardware suspend handling
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Tue, 07 Sep 2021 21:05:38 +0000 |
| parents | 4e78acac3d88 |
| children |
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/****************************************************************************** * WIRELESS COMMUNICATION SYSTEM DEVELOPMENT * * (C) 2002 Texas Instruments France. All rights reserved * * Author : Philippe MARTINEZ * * * Important Note * -------------- * * This S/W is a preliminary version. It contains information on a product * under development and is issued for evaluation purposes only. Features * characteristics, data and other information are subject to change. * * The S/W is furnished under Non Disclosure Agreement and may be used or * copied only in accordance with the terms of the agreement. It is an offence * to copy the software in any way except as specifically set out in the * agreement. No part of this document may be reproduced or transmitted in any * form or by any means, electronic or mechanical, including photocopying and * recording, for any purpose without the express written permission of Texas * Instruments Inc. * ****************************************************************************** * * FILE NAME: lcd_if.c * * * PURPOSE: LCD Interface driver compiled in 16-bits mode (thumb mode) * * * FILE REFERENCES: * * Name IO Description * ------------- -- --------------------------------------------- * * * * EXTERNAL VARIABLES: * * Source: * * Name Type IO Description * ------------- --------------- -- ------------------------------ * * * * EXTERNAL REFERENCES: * * Name Description * ------------------ ------------------------------------------------------- * * * * ABNORMAL TERMINATION CONDITIONS, ERROR AND WARNING MESSAGES: * * * * ASSUMPTION, CONSTRAINTS, RESTRICTIONS: * * * * NOTES: * * * * REQUIREMENTS/FUNCTIONAL SPECIFICATION REFERENCES: * * * * * DEVELOPMENT HISTORY: * * Date Name(s) Version Description * ----------- -------------- ------- ------------------------------------- * 30-Oct-2002 Philippe MARTINEZ 0.0.1 First implementation * * ALGORITHM: * * *****************************************************************************/ #include "r2d/lcds/e_sample/lcd_if.h" #include "memif/mem.h" /**************************************************************************** * GLOBAL VARIABLES ***************************************************************************/ /* internal structure instance */ T_LCD_IF_INTERNAL d_lcd_if_internal; /**************************************************************************** * INTERNAL FUNCTION PROTOTYPE ***************************************************************************/ void f_lcd_if_set_cs_and_data_type( E_LCD_IF_CS d_cs, E_LCD_IF_DATA_TYPE d_type, E_LCD_IF_DATA_ACCESS d_access ); static E_LCD_IF_CALLBACK_RET f_lcd_if_dummy_callback( void ); /****************************************************************************** * * FUNCTION NAME: f_lcd_if_init * * Initialize the internal initialization structure. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * p_init T_LCD_IF_INIT* I Pointer on the external initialization * structure * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_init( E_LCD_IF_CS d_cs, T_LCD_IF_INIT *p_init ) { /* reset internal state to IDLE */ d_lcd_if_internal.d_interrupt_state = C_LCD_IF_IDLE; /* What is the chip select value ? */ if( d_cs == C_LCD_IF_CS_NOT_SELECTED ) { /* not a valid CS */ return; } // End if /* update current struct pointer */ //d_lcd_if_internal.p_current_struct = &d_lcd_if_internal.d_cs_struct[d_cs]; /* Copy the LCD manager init structure to the internal structure */ /* and initialize the internal structure */ d_lcd_if_internal.d_cs_struct[d_cs].d_mode = p_init->d_mode; d_lcd_if_internal.d_cs_struct[d_cs].b_flip_bytes = p_init->b_flip_bytes; d_lcd_if_internal.d_cs_struct[d_cs].d_isll = p_init->d_isll; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.d_clock_divider = p_init->d_tx_init.d_clock_divider; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_callback = f_lcd_if_dummy_callback; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_buffer = (SYS_UWORD16*) NULL; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.d_buffer_size = 0; d_lcd_if_internal.d_cs_struct[d_cs].d_rx.d_clock_divider = p_init->d_rx_init.d_clock_divider; d_lcd_if_internal.d_cs_struct[d_cs].d_rx.d_dummy_cycles = p_init->d_rx_init.d_dummy_cycles; /* compose the CNTL_REG and LCD_CNTL_REG bit fields */ d_lcd_if_internal.d_cs_struct[d_cs].d_cntl_reg = (C_LCD_IF_CNTL_REG_SOFT_NRST_INIT << C_LCD_IF_CNTL_REG_SOFT_NRST_POS) | (C_LCD_IF_CNTL_REG_CLOCK13_EN_INIT << C_LCD_IF_CNTL_REG_CLOCK13_EN_POS) | (d_lcd_if_internal.d_cs_struct[d_cs].d_tx.d_clock_divider << C_LCD_IF_CNTL_REG_TX_CLOCK_DIV_POS) | (d_lcd_if_internal.d_cs_struct[d_cs].d_rx.d_clock_divider << C_LCD_IF_CNTL_REG_RX_CLOCK_DIV_POS) | (C_LCD_IF_CNTL_REG_FIFO_EMPTY_IT_EN_INIT << C_LCD_IF_CNTL_REG_FIFO_EMPTY_IT_EN_POS) | (C_LCD_IF_CNTL_REG_LCD_READ_EVENT_IT_EN_INIT << C_LCD_IF_CNTL_REG_LCD_READ_EVENT_IT_EN_POS) | (C_LCD_IF_CNTL_REG_DMA_EN_INIT << C_LCD_IF_CNTL_REG_DMA_EN_POS) | (d_lcd_if_internal.d_cs_struct[d_cs].d_mode << C_LCD_IF_CNTL_REG_MODE_POS) | (d_lcd_if_internal.d_cs_struct[d_cs].b_flip_bytes << C_LCD_IF_CNTL_REG_FLIP_BYTES_POS) | (C_LCD_IF_CNTL_REG_SUSPEND_EN_INIT << C_LCD_IF_CNTL_REG_SUSPEND_EN_POS) | (C_LCD_IF_CNTL_REG_MIN_FRAME_SIZE_INIT << C_LCD_IF_CNTL_REG_MIN_FRAME_SIZE_POS) | (d_lcd_if_internal.d_cs_struct[d_cs].d_rx.d_dummy_cycles << C_LCD_IF_CNTL_REG_N_DUMMY_POS); d_lcd_if_internal.d_cs_struct[d_cs].d_lcd_cntl_reg = (d_cs << C_LCD_IF_LCD_CNTL_REG_LCD_NCS0_POS) | (C_LCD_IF_LCD_CNTL_REG_LCD_RS_INIT << C_LCD_IF_LCD_CNTL_REG_LCD_RS_POS) | (C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_INIT << C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_POS) | (C_LCD_IF_LCD_CNTL_REG_LCD_NRESET_INIT << C_LCD_IF_LCD_CNTL_REG_LCD_NRESET_POS) | (~d_cs << C_LCD_IF_LCD_CNTL_REG_LCD_NCS1_POS); /* Force Switch to Chip select */ d_lcd_if_internal.d_current_cs = C_LCD_IF_CS_NOT_SELECTED; /* Switch to chip select */ /* Set data type and access to instruction (arbitrary) and write */ f_lcd_if_set_cs_and_data_type( d_cs, C_LCD_IF_INSTRUCTION, C_LCD_IF_WRITE ); } /* f_lcd_if_init */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_reset * * Reset the LCD Interface Hardware. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * None * * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_reset( void ) { /* Reset CNTL_REG:SOFT_NRST bit */ (*(volatile SYS_UWORD16*) C_LCD_IF_CNTL_REG) &= ~(C_LCD_IF_CNTL_REG_SOFT_NRST_MASK); /* loop to wait for CNTL_REG:SOFT_NRST bit return back to 1 */ F_LCD_IF_WAIT_LCD_IF_RESET; } /* f_lcd_if_reset */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_get_version * * Return the LCD Interface driver version. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * None * * RETURN VALUE: SYS_UWORD16 : Version number. * *****************************************************************************/ SYS_UWORD16 f_lcd_if_get_version( void ) { return ((SYS_UWORD16) C_LCD_IF_DRIVER_VERSION); } /* f_lcd_if_get_version */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_reset_lcd_controller * * Resets the LCD Controller hardware. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * d_reset E_LCD_IF_RESET I ON => reset state * * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_reset_lcd_controller( E_LCD_IF_CS d_cs, E_LCD_IF_RESET d_reset ) { /* Switch to chip select */ /* Set data type and access to instruction (arbitrary) and write */ f_lcd_if_set_cs_and_data_type( d_cs, C_LCD_IF_INSTRUCTION, C_LCD_IF_WRITE ); /* Apply the LCD Controller reset on the LCD Interface line (LCD_CNTL_REG:LCD_nRESET bit) */ if( d_reset == C_LCD_IF_OFF) { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) |= (d_reset << C_LCD_IF_LCD_CNTL_REG_LCD_NRESET_POS); } else { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) &= ~(d_reset << C_LCD_IF_LCD_CNTL_REG_LCD_NRESET_POS); } // End if } /* f_lcd_if_reset_lcd_controller */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_clock * * Enable/disable the LCD Interface 13 MHx clock in. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_clock_switch E_LCD_IF_CLOCK I CLOCK_ON/CLOCK_OFF state * * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_clock( E_LCD_IF_CLOCK d_clock_switch ) { /* write argument into CNTL_REG:CLOCK13_EN bit */ if( d_clock_switch == C_LCD_IF_CLOCK_ON ) { (*(volatile SYS_UWORD16*) C_LCD_IF_CNTL_REG) |= (d_clock_switch << C_LCD_IF_CNTL_REG_CLOCK13_EN_POS); } else { (*(volatile SYS_UWORD16*) C_LCD_IF_CNTL_REG) &= ~(d_clock_switch << C_LCD_IF_CNTL_REG_CLOCK13_EN_POS); } // End if } /* f_lcd_if_clock */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_poll_write * * LCD Controller write procedure in polling mode. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * p_data SYS_UWORD16* I pointer on data buffer * d_size SYS_UWORD32 I data buffe size * d_type E_LCD_IF_DATA_TYPE I Instruction / Data type selector * * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_poll_write( E_LCD_IF_CS d_cs, SYS_UWORD16 *p_data, SYS_UWORD32 d_size, E_LCD_IF_DATA_TYPE d_type ) { SYS_UWORD32 d_nb_words_to_copy = d_size; SYS_UWORD32 d_nb_words_in_loop = 0; SYS_UWORD16 *p_buffer = p_data; SYS_UWORD8 d_data_type = 0; SYS_UWORD8 i = 0; /* Switch to chip select */ /* Set data type and access */ f_lcd_if_set_cs_and_data_type( d_cs, d_type, C_LCD_IF_WRITE ); /* infinite loop : exit loop when no words to copy and Tx FIFO empty */ while( C_LCD_IF_INFINITE_LOOP ) { /* Wait for the LCD Interface Tx FIFO is empty LCD_IF_STS_REG:FIFO_EMPTY_STATUS_BIT */ F_LCD_IF_WAIT_TX_FIFO_EMPTY; /* Check if all data have been copied */ if( d_nb_words_to_copy == 0 ) { return; } // End if /* Copy up to C_LCD_IF_TX_FIFO_SIZE words into the TX FIFO. */ if( d_nb_words_to_copy >= C_LCD_IF_TX_FIFO_SIZE) { d_nb_words_in_loop = C_LCD_IF_TX_FIFO_SIZE; } else { d_nb_words_in_loop = d_nb_words_to_copy; } // End if for( i=0; i<d_nb_words_in_loop ;i++ ) { F_LCD_IF_WRITE_IN_FIFO( p_buffer[i] ); } // End for /* update d_nb_words_to copy and p_buffer */ d_nb_words_to_copy -= d_nb_words_in_loop; p_buffer += d_nb_words_in_loop; } // End while } /* f_lcd_if_poll_write */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_poll_read * * LCD Controller read procedure in polling mode. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * d_type E_LCD_IF_DATA_TYPE I Instruction / Data type selector * * RETURN VALUE: SYS_UWORD16 : read data word * *****************************************************************************/ SYS_UWORD16 f_lcd_if_poll_read( E_LCD_IF_CS d_cs, E_LCD_IF_DATA_TYPE d_type ) { SYS_UWORD8 d_data_type = 0; /* Switch to chip select */ /* Set data type and access */ f_lcd_if_set_cs_and_data_type( d_cs, d_type, C_LCD_IF_READ ); /* Wait for data received from the LCD Controller hardware */ F_LCD_IF_WAIT_READ_STATUS; /* retrieve data read */ return (*(volatile SYS_UWORD16*) C_LCD_IF_RD_REG); } /* f_lcd_if_poll_read */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_it_write * * LCD Controller write procedure in interrupt mode. * Direct access to the data buffer * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * p_buffer SYS_UWORD16 I Pointer to the data buffer * d_size SYS_UWORD32 I Data buffer size * d_type E_LCD_IF_DATA_TYPE I Instruction / Data type selector * pf_callback_sts T_LCD_IF_CALLBACK I Status callback function pointer. * * RETURN VALUE: E_LCD_IF_RET function status. * *****************************************************************************/ E_LCD_IF_RET f_lcd_if_it_write( E_LCD_IF_CS d_cs, SYS_UWORD16 *p_buffer, SYS_UWORD32 d_size, E_LCD_IF_DATA_TYPE d_type, T_LCD_IF_CALLBACK pf_callback_sts ) { SYS_UWORD8 d_data_type = 0; /* Check the callback function argument */ if( pf_callback_sts == (T_LCD_IF_CALLBACK) NULL ) return( C_LCD_IF_RET_ERR ); /* Switch to chip select */ /* Set data type and access */ f_lcd_if_set_cs_and_data_type( d_cs, d_type, C_LCD_IF_WRITE ); /* save buffer references and install status callback function */ d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_callback = pf_callback_sts; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_buffer = p_buffer; d_lcd_if_internal.d_cs_struct[d_cs].d_tx.d_buffer_size = d_size; /* set d_interrupt_state to C_LCD_IF_IT_BUFF */ d_lcd_if_internal.d_interrupt_state = C_LCD_IF_IT_BUFF; /* Enable LCD Interface TX FIFO Empty interrupt */ F_LCD_IF_ENABLE_TX_FIFO_EMPTY_IT; return( C_LCD_IF_RET_OK ); } /* f_lcd_if_it_write */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_it_write_cust * * LCD Controller write procedure in interrupt mode. * LCD Controller Tx FIFO copy done by transmit callback function. * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * d_type E_LCD_IF_DATA_TYPE I Instruction / Data type selector * pf_callback_tx T_LCD_IF_CALLBACK I Transmit callback function pointer. * * RETURN VALUE: E_LCD_IF_RET function status. * *****************************************************************************/ E_LCD_IF_RET f_lcd_if_it_write_cust( E_LCD_IF_CS d_cs, E_LCD_IF_DATA_TYPE d_type, T_LCD_IF_CALLBACK pf_callback_tx ) { SYS_UWORD8 d_data_type = 0; /* Check the callback function argument */ if( pf_callback_tx == (T_LCD_IF_CALLBACK) NULL ) return( C_LCD_IF_RET_ERR ); /* Switch to chip select */ /* Set data type and access */ f_lcd_if_set_cs_and_data_type( d_cs, d_type, C_LCD_IF_WRITE ); /* install transmit callback function */ d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_callback = pf_callback_tx; /* set d_interrupt_state to C_LCD_IF_IT_CUST */ d_lcd_if_internal.d_interrupt_state = C_LCD_IF_IT_CUST; /* Enable LCD Interface TX FIFO Empty interrupt */ F_LCD_IF_ENABLE_TX_FIFO_EMPTY_IT; return( C_LCD_IF_RET_OK ); } /* f_lcd_if_it_write_cust */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_dma_enable * * LCD Controller write procedure start in DMA mode. * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * d_min_frame_sz E_LCD_IF_FRAME_SZ I LCD Interface Minimum frame size * d_type E_LCD_IF_DATA_TYPE I Instruction / Data type selector * * RETURN VALUE: None. * *****************************************************************************/ void f_lcd_if_dma_enable( E_LCD_IF_CS d_cs, E_LCD_IF_FRAME_SZ d_min_frame_sz, E_LCD_IF_DATA_TYPE d_type ) { SYS_UWORD8 d_data_type = 0; /* Switch to chip select */ /* Set data type and access */ f_lcd_if_set_cs_and_data_type( d_cs, d_type, C_LCD_IF_WRITE ); /* enables DMA capabilities */ F_LCD_IF_ENABLE_DMA; } /* f_lcd_if_dma_enable */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_dma_disable * * LCD Controller write procedure stop in DMA mode. * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * pf_callback_sts T_LCD_IF_CALLBACK I Status Callback function pointer * * RETURN VALUE: E_LCD_IF_RET function status. * *****************************************************************************/ E_LCD_IF_RET f_lcd_if_dma_disable( E_LCD_IF_CS d_cs, T_LCD_IF_CALLBACK pf_callback_sts ) { /* Check the callback function argument */ if( pf_callback_sts == (T_LCD_IF_CALLBACK) NULL ) return( C_LCD_IF_RET_ERR ); /* disable DMA capabilities */ F_LCD_IF_DISABLE_DMA; /* install status callback function */ d_lcd_if_internal.d_cs_struct[d_cs].d_tx.p_callback = pf_callback_sts; /* set d_interrupt_state to C_LCD_IF_IT_CUST */ d_lcd_if_internal.d_interrupt_state = C_LCD_IF_IT_CUST; /* Enable LCD Interface TX FIFO Empty interrupt */ F_LCD_IF_ENABLE_TX_FIFO_EMPTY_IT; return( C_LCD_IF_RET_OK ); } /* f_lcd_if_dma_disable */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_set_cs_and_data_type * * Updates CNTL_REG and LCD_CNTL_REG to change LCD Controller addressing. * Updates LCD_CNTL_REG to set data type and read or write access * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * d_cs E_LCD_IF_CS I LCD Controller Chip select * d_type E_LCD_IF_DATA_TYPE I data type * d_access E_LCD_IF_DATA_ACCESS I Data access * * RETURN VALUE: None * *****************************************************************************/ void f_lcd_if_set_cs_and_data_type( E_LCD_IF_CS d_cs, E_LCD_IF_DATA_TYPE d_type, E_LCD_IF_DATA_ACCESS d_access ) { SYS_UWORD8 d_data_type; /* if the argument equals the current chip select, nothing to do */ if( d_lcd_if_internal.d_current_cs != d_cs ) { /* What is the chip select value ? */ if( d_cs == C_LCD_IF_CS_NOT_SELECTED ) { /* not a valid CS */ return; } // End if /* update current struct pointer */ //d_lcd_if_internal.p_current_struct = &d_lcd_if_internal.d_cs_struct[d_cs]; /* Update CNTL_REG register and LCD_CNTL_REG to the new chip select */ /* The CNTL_REG:CLOCK_EN bit is set to Clock enable */ (*(volatile SYS_UWORD16*) C_LCD_IF_CNTL_REG) = d_lcd_if_internal.d_cs_struct[d_cs].d_cntl_reg; (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) = d_lcd_if_internal.d_cs_struct[d_cs].d_lcd_cntl_reg; /* update d_current_cs */ d_lcd_if_internal.d_current_cs = d_cs; } // End if /* Sets LCD_CNTL_REG:LCD_RS to type defined in argument and start read */ if( d_type == C_LCD_IF_INSTRUCTION ) { d_data_type = (SYS_UWORD8) d_lcd_if_internal.d_cs_struct[d_cs].d_isll; } else { d_data_type = (SYS_UWORD8) ~d_lcd_if_internal.d_cs_struct[d_cs].d_isll; } // End if if( d_data_type == 0 ) { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) &= ~( 0x01 << C_LCD_IF_LCD_CNTL_REG_LCD_RS_POS ); } else { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) |= ( 0x01 << C_LCD_IF_LCD_CNTL_REG_LCD_RS_POS ); } // End if // Set access type if( d_access == C_LCD_IF_READ ) { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) |= (C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_EN << C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_POS); } else { (*(volatile SYS_UWORD16*) C_LCD_IF_LCD_CNTL_REG) &= ~(C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_EN << C_LCD_IF_LCD_CNTL_REG_LCD_START_READ_POS); } // End if } /* f_lcd_if_set_cs_and_data_type */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_dummy_callback * * Dummy callback function for Internal structure initialization. * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * None. * * RETURN VALUE: E_LCD_IF_CALLBACK_RET * *****************************************************************************/ static E_LCD_IF_CALLBACK_RET f_lcd_if_dummy_callback( void ) { /* EMPTY DUMMY FUNCTION */ } /* f_lcd_if_dummy_callback */ /****************************************************************************** * * FUNCTION NAME: f_lcd_if_initialization * * * * ARGUMENT LIST: * * Argument Type IO Description * ------------ ------------------- -- --------------------------------- * None. * * RETURN VALUE: * *****************************************************************************/ void f_lcd_if_initialization( void ) { T_LCD_IF_INIT init_struct_ptr; volatile SYS_UWORD8 i; init_struct_ptr.d_mode = C_LCD_IF_8086_MODE; init_struct_ptr.b_flip_bytes = C_LCD_IF_LSB_FIRST; init_struct_ptr.d_isll = C_LCD_IF_LOW; init_struct_ptr.d_tx_init.d_clock_divider = C_LCD_IF_DIV8; init_struct_ptr.d_rx_init.d_clock_divider = C_LCD_IF_DIV8; init_struct_ptr.d_rx_init.d_dummy_cycles = C_LCD_IF_0_CYCLE; f_lcd_if_reset(); f_lcd_if_clock(C_LCD_IF_CLOCK_ON); f_lcd_if_init(C_LCD_IF_CS0, &(init_struct_ptr) ); f_lcd_if_reset_lcd_controller(C_LCD_IF_CS0, C_LCD_IF_ON); for(i=0;i<10;i++); f_lcd_if_reset_lcd_controller(C_LCD_IF_CS0, C_LCD_IF_OFF); }