JapanDisplayInc
Animation demo with MIP8F_SPI_Ver60
Dependencies: mbed MIP8F_SPI_Ver60 MIP8f_FRDM_LineBuffer_sample MIP8f_FRDM_TransferMode_sample
Introduction
Animation Demo. Some Goldfish swin in water, from left to right, from bottom to top. Color and monochrome version
Only for LPM027M128x (400x240) ,JDI DIsplay.
Other information , please refer to https://os.mbed.com/teams/JapanDisplayInc/code/MIP8f_FRDM_sample/
Usage
Copy Setting File and Image to micro SD-CARD. you can NOT use same sample color images of OTHER VERSION SAMPLE.
a) Download the following file corresponding to the target panel, and rename file identifier (.bin -> .zip), and unzip the file on micro SD Card's root directory.
LPM027M128x (400x240) :/media/uploads/JDI_Mbed_Team/goldfish_400x240.bin
b) Insert micro SD-CARD to FRDM-K64F. c) Upload binary file to FRDM-K64F.and push Reset Button.
Other information
refer to Usage on https://os.mbed.com/teams/JapanDisplayInc/code/MIP8f_FRDM_sample/
this Sample Code (.bin)
/media/uploads/JDI_Mbed_Team/mip8f_frdm_animation_sample.k64f.bin
main.cpp
- Committer:
- JDI_Mbed_Team
- Date:
- 2018-09-04
- Revision:
- 0:33fe30a2b785
- Child:
- 1:e5796aa9f1aa
File content as of revision 0:33fe30a2b785:
/**
* Copyright 2018 Japan Display Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include "stdio.h"
#include "string"
#include "mbed.h"
#include "MIP8F_SPI.h"
#include "SDFileSystem.h"
#include "StateSW.h"
#include "TglSW.h"
#include "Arial12x12.h"
#include "Arial24x23.h"
#include "Arial28x28.h"
#include "font_big.h"
//#include "Prototype29x28.h"
//#include "Prototype70x86.h"
//#include "HGP23x29.h"
//#include "HGP15x19.h"
//#include "symbol.h"
#define ON 1
#define OFF 0
//K64F
SDFileSystem sd(PTE3, PTE1, PTE2, PTE4, "sd"); // mosi,miso,sck,cs
memLCD8 WD(PTD2,PTD3,PTD1,PTD0,PTC4,PTD3); //PTC12); // mosi,miso,clk,cs,disp,power
PwmOut BK(PTC3);
PwmOut COM60HZ(PTC10); //add 20161108
DigitalOut COMSEL(PTA2,0); //add 20161108
DigitalOut BLCTRL(PTB10,0); //add 20171115
// SW2
StateSW swPWMorOFF(SW2); //PTC6);
InterruptIn PWMorOFF(SW2);
// SW3
TglSW HaltSW(SW3); //PTA4);
DigitalIn TexSW(SW3);
void SD2BUF(char *filepath);
void ifOFFseq(void);
void ifswPWM(void);
void OffSequence(void);
void DispAllDir(const char *fsrc);
void ReadBmp(const char *fsrc, uint32_t FileNum);
uint32_t CntFile(const char *fsrc);
int ifMargeTXT = 0;
int width = 400;
int height= 240;
float BKduty = 0;
float BKjudge = 0;
//double BKduty = 0;
float bk_timer = 1.0;
int blduty = 0;
int bloff = 0;
int blctrl_sel = 1; //0:40mA, 1:160mA
int main() {
uint32_t filenum=0;
char filepath[40];
sd.disk_initialize();
HaltSW.Enable(1);
FILE *fp = fopen("/sd/settings2.txt", "rb"); //read binary
if(fp != NULL) {
fscanf(fp, "%d",&width); //width read
fscanf(fp, "%d",&height); //height read
fscanf(fp, "%d",&blctrl_sel);//blct_sel read //0:40mA, 1:160mA
sprintf(filepath,"/sd/%dx%d",width,height); //DispAllDir("/sd/180x180") //file name write to filepath
fclose(fp);
} else {
FILE *fp = fopen("/sd/settings.txt", "rb"); //read binary
if(fp != NULL) {
fscanf(fp, "%d",&width); //width read
fscanf(fp, "%d",&height); //height read
sprintf(filepath,"/sd/%dx%d",width,height); //DispAllDir("/sd/180x180") //file name write to filepath
fclose(fp);
} else{
width =180;
height=180;
sprintf(filepath,"/sd/180x180"); //DispAllDir("/sd/180x180")
}
}
COMSEL.write(1); //
BLCTRL.write(blctrl_sel); //
WD.setWH(width,height); //input -> width, height
WD.background(Black); //background = black
WD.clsBUF(); //data initialize
WD.writeDISP(); //picture write(black)
WD.SwDisp(1); //disp on
// OffSW.fall(&OffSequence); // Renamed "OffSW" as "PWMorOFF" for BK PWM setting
// SW settings for PWM or OFF
PWMorOFF.fall(&ifswPWM); // Backlight //sw2 fall edge
PWMorOFF.rise(&ifOFFseq); // OFF Sequence //sw2 rise edge
swPWMorOFF.Enable(8, 2, 1); //int ModeNum, int NoiseCancel, int OpenTime //????
swPWMorOFF.IfCntClose(ON);
swPWMorOFF.IfCntState(ON);
COM60HZ.period_ms(8); //add 20161108
COM60HZ.write(0.5); //add 20161108
BK.period_ms(1); //1ms cycle 20161012
BK.write(0); //low output 20160725 <- high output
while(1){ //BITMAPS
filenum = CntFile(filepath); //file number read
for(uint32_t i=0; i<filenum; i++){
ReadBmp(filepath,i);
while(HaltSW.State()){ // VCOM invert when image is still
// pol++;
// WD.command( (pol << 6) & 0x40 );
// wait(bk_timer); //1Hz
}
/*
// Brink
for(char j = 0; j < 8; j++){
pol = j&0x01;
EnterOrLeave = (j+1)&0x01;
WD.command( (pol << 6) | (EnterOrLeave << 3) );
wait(0.2);
}
*/
HaltSW.Clear();
WD.writeDISP();
wait(2);
}
}
}
void SD2BUF(char *filepath){
char R8[1],G8[1],B8[1] ,DUMMY[1];
int RGB;
FILE *fp ;
fp = fopen(filepath, "rb");
if(fp != NULL) {
for(int i=0; i< 54 ; i++) fscanf(fp,"%c",DUMMY); // Discard Header 54bytes
for(int y=height-1; y>=0; y--) {
for(int x=0; x< width; x++) { //24bit color B 8bit -> G 8bit -> R 8bit
fscanf(fp, "%c",B8);
fscanf(fp, "%c",G8);
fscanf(fp, "%c",R8);
RGB = RGB8(*R8,*G8,*B8); //6bit(8bit) MIP MASK 0000 1110
WD.pixel(x,y,RGB);
}
if( y!=0) // The last data column doesn't need padding
for(int x=(width*3)%4; (x%4 !=0); x++) fscanf(fp, "%c",DUMMY); // 4byte boundery for every column
}
}
fclose(fp);
}
void SDtex2BUF(char *filepath){
int x,y,font,color;
char text[40];
int ifEOF;
FILE *fp ;
fp = fopen(filepath, "r");
if(fp != NULL) {
// for(int i=0; i<3; i++){
while(ifEOF != -1){
ifEOF = fscanf(fp,"%d,%d,%d,%d,%[^,],",&x,&y,&font,&color,text);
WD.locate(x,y);
WD.foreground(color);
if (font ==1) WD.set_font((unsigned char*) Arial12x12);
else if (font ==2) WD.set_font((unsigned char*) Arial24x23);
else if (font ==3) WD.set_font((unsigned char*) Arial28x28);
else WD.set_font((unsigned char*) Neu42x35);
WD.printf("%s",text);
}
}
fclose(fp);
}
void DispAllDir(const char *fsrc)
{
DIR *d = opendir(fsrc);
struct dirent *p;
char filepath[40];
while ((p = readdir(d)) != NULL) {
sprintf(filepath, "%s/%s",fsrc,p->d_name);
SD2BUF(filepath);
WD.writeDISP();
}
closedir(d);
}
void ReadBmp(const char *fsrc, uint32_t FileNum)
{
DIR *d = opendir(fsrc);
struct dirent *p;
char filepath[40];
for(uint32_t i=0; i< FileNum; i++) readdir(d);
if ((p = readdir(d)) != NULL) {
sprintf(filepath, "%s/%s",fsrc,p->d_name);
SD2BUF(filepath);
if(ifMargeTXT){
sprintf(filepath, "%s_txt/%s.txt",fsrc,p->d_name);
SDtex2BUF(filepath);
}
}
closedir(d);
}
uint32_t CntFile(const char *fsrc)
{
DIR *d = opendir(fsrc);
uint32_t counter = 0;
while (readdir(d)!= NULL) counter++;
closedir(d);
return counter;
}
void OffSequence(void){
BK.write(0); //add 20160712 17:00
WD.background(Black);
WD.clsBUF();
WD.SwDisp(0);
WD.writeDISP();
WD.writeDISP();
bloff = 1;
}
void ifswPWM(void){
if(bloff == 0){
if(blduty >= 10){ //0
blduty = 0; //10
COMSEL.write(1); //
}else{
blduty += 1; //-=
COMSEL.write(1); //
}
}else{
blduty = 0;
COMSEL.write(1); //
}
// BKduty = BKduty - 0.125;
// BKduty -= 0.125;
// if(BKduty <= 0) BKduty = 1;
// BK.write(BKduty);
BK.write(blduty*0.1); //
if(blduty == 0){
bk_timer = 1.0;
}else{
bk_timer = 0.008; //0.016 20160712
}
}
void ifOFFseq(void){
if(swPWMorOFF.IfAtTime()){
swPWMorOFF.IfCntClose(OFF);
swPWMorOFF.IfCntState(OFF);
OffSequence();
}
}