FreeCalypso > hg > fc-magnetite
view src/cs/drivers/drv_app/r2d/lcd_gsm_ps_api.c @ 605:07d0dc4431f4
bootloader.s: same MEMIF fix as in int.s plus DPLL BYPASS fix
Both MEMIF and DPLL settings are now the same between int.s and bootloader.s
assembly code paths. Previously bootloader.s was setting DPLL BYPASS /2 mode,
which persisted until _INT_Initialize code with the bootloader body omitted,
or was changed to /1 in the hardware init function in the
bootloader.lib:start.obj module.
| author | Mychaela Falconia <falcon@freecalypso.org> |
|---|---|
| date | Mon, 17 Jun 2019 18:40:32 +0000 |
| parents | 945cf7f506b2 |
| children |
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/****************************************************************************/ /* */ /* File Name: lcd_gsm_ps_api.c */ /* */ /* Purpose: This file contains the adaptation layer used to direct */ /* Condat LCD calls to void or not */ /* */ /* Version 0.1 */ /* */ /* Date Modification */ /* ------------------------------------ */ /* 29/09/2000 Create */ /* */ /* Author Davide Carpegna */ /* */ /* (C) Copyright 2000 by Texas Instruments Incorporated, All Rights Reserved*/ /****************************************************************************/ #ifndef _WINDOWS #include "config/rv.cfg" #endif #if (_GSM==1) #include "rv/rv_general.h" #include "rvf/rvf_api.h" #include "r2d/lcd_messages.h" T_RV_RET LCD_Reset(void) { #if (TEST==0) return lcd_reset(); #else return RV_OK; #endif } T_RV_RET LCD_Clear(void) { #if (TEST==0) return lcd_clear(); #else return RV_OK; #endif } T_RV_RET LCD_Init(void) { #if (TEST==0) return lcd_init(); #else return RV_OK; #endif } T_RV_RET LCD_WriteString(UINT8 row, UINT8 column, char *string, T_VIDEO_MODE mode) { #if (TEST==0) return lcd_write_string(row, column, string, mode); #else return RV_OK; #endif } T_RV_RET LCD_WriteCenter( char *string) { #if (TEST==0) return lcd_write_center(string); #else return RV_OK; #endif } T_RV_RET LCD_ClearString(UINT8 row) { #if (TEST==0) return lcd_clear_string(row); #else return RV_OK; #endif } T_RV_RET LCD_ClearWord(UINT8 row, UINT8 column, UINT16 length) { #if (TEST==0) return lcd_clear_word(row, column, length); #else return RV_OK; #endif } T_RV_RET LCD_PutPixel(UINT8 x, UINT8 y) { #if (TEST==0) return lcd_put_pixel(x, y); #else return RV_OK; #endif } T_RV_RET LCD_ClearPixel(UINT8 x, UINT8 y) { #if (TEST==0) return lcd_clear_pixel(x, y); #else return RV_OK; #endif } T_RV_RET LCD_DrawLine(UINT8 x1, UINT8 y1, UINT8 x2, UINT8 y2) { #if (TEST==0) return lcd_draw_line(x1, y1, x2, y2); #else return RV_OK; #endif } T_RV_RET LCD_ClearLine(UINT8 x1, UINT8 y1, UINT8 x2, UINT8 y2) { #if (TEST==0) return lcd_clear_line(x1, y1, x2, y2); #else return RV_OK; #endif } T_RV_RET LCD_DrawRectangle(UINT8 x1, UINT8 y1, UINT8 x2, UINT8 y2) { #if (TEST==0) return lcd_draw_rectangle(x1, y1, x2, y2); #else return RV_OK; #endif } T_RV_RET LCD_ClearRectangle(UINT8 x1, UINT8 y1, UINT8 x2, UINT8 y2) { #if (TEST==0) return lcd_clear_rectangle(x1, y1, x2, y2); #else return RV_OK; #endif } T_RV_RET LCD_DrawIcon(UINT8 x,UINT8 y,UINT8 icon_id) { #if (TEST==0) return lcd_draw_icon(x,y,icon_id); #else return RV_OK; #endif } T_RV_RET LCD_RefreshBloc(char *table,UINT8 x_dim,UINT8 y_dim,UINT8 x_pos,UINT8 y_pos) { #if (TEST==0) return lcd_refresh_bloc(table,x_dim,y_dim,x_pos,y_pos); #else return RV_OK; #endif } T_RV_RET LCD_PixBlt(int x_pos,int y_pos,int x_dim,int y_dim,char *table) { #if (TEST==0) return lcd_pix_blt(x_pos,y_pos,x_dim,y_dim,table); #else return RV_OK; #endif } T_RV_RET LCD_Enable(UINT8 x) { #if (TEST==0) return lcd_enable(x); #else return RV_OK; #endif } T_RV_RET LCD_SetPower(void) { #if (TEST==0) return lcd_set_power(); #else return RV_OK; #endif } T_RV_RET LCD_Cursor(UINT8 y,UINT8 x) { #if (TEST==0) return lcd_cursor(y,x); #else return RV_OK; #endif } #endif