C语言&嵌入式

【STM32学习记录】4、1.44寸TFT液晶屏显示字符、汉字和

2020-03-28  本文已影响0人  AXYZdong

Author:AXYZdong
自动化专业 工科男
有一点思考,有一点想法,有一点理性

概述

MCU:某宝的STM32F407VET6最小系统板,点此详见
外部资源:某宝的TFT液晶屏(下面会附上图片)
点此下载完整工程
==文末有惊喜,希望可以坚持看下去==

4.1硬件设计

在这里插入图片描述
Pin 引脚说明
VCC 电源正
GND 电源负
NC no connect ,不需要接线
LED 背光控制信号
CLK(SCL) SPI总线时钟引脚
SDI(SDA) SPI总线数据引脚
RS 寄存器/数据选择控制引脚
RST 复位控制引脚
CS 片选控制引脚

这里有个小疑问:为啥引出两个GND和NC?不知道制造商怎么想的?有知道的小伙伴可以私信我呢。

要注意一下,NC这个引脚是不需要接线的。
LED:背光控制信号,如果不需要控制时,接电源+3.3V
==关键词:SPI总线驱动==

4.2软件设计

4.2.1编程要点

1、初始化GPIO口来模拟SPI,每个人设置的GPIO口不同,开发板与TFT接线也会不同。之后再设置液晶屏初始化。

2、TFT驱动程序,这里的驱动程序可以参考别人写的,然后自己再加以修改或者补充。驱动程序包括:向TFT写数据,设置TFT显示区域、设置TFT某点的颜色等等,具体的在代码里注释说明。

3、取模,包括文字取模和图片取模。根据自己的需要来取模。需要取模软件的可以私信我。
(PS:其实这几个步骤和上一篇文章的OLED差不多的啦,只是修(fu)改(zhi)了一下)

4.2.2代码说明

1、宏定义Lcd_Driver.h

#define RED       0xf800
#define GREEN     0x07e0
#define BLUE      0x001f
#define WHITE     0xffff
#define BLACK     0x0000
#define YELLOW  0xFFE0
#define GRAY0   0xEF7D          //灰色0 3165 00110 001011 00101
#define GRAY1   0x8410          //灰色1 00000 000000 00000
#define GRAY2   0x4208          //灰色2  1111111111011111

#define LCD_CTRL        GPIOB       //定义TFT数据端口
#define LCD_LED         GPIO_Pin_9  //MCU_PB9--->>TFT --BL
#define LCD_SCL         GPIO_Pin_10 //PB13--->>TFT --SCL/SCK
#define LCD_SDA         GPIO_Pin_12 //PB15 MOSI--->>TFT --SDA/DIN
#define LCD_RS          GPIO_Pin_11 //PB11--->>TFT --RS/DC
#define LCD_RST           GPIO_Pin_14   //PB10--->>TFT --RST
#define LCD_CS          GPIO_Pin_13  //MCU_PB11--->>TFT --CS/CE

//#define LCD_CS_SET(x) LCD_CTRL->ODR=(LCD_CTRL->ODR&~LCD_CS)|(x ? LCD_CS:0)
//液晶控制口置1操作语句宏定义

#define LCD_CS_SET      LCD_CTRL->BSRRL=LCD_CS    
#define LCD_RS_SET      LCD_CTRL->BSRRL=LCD_RS    
#define LCD_SDA_SET     LCD_CTRL->BSRRL=LCD_SDA    
#define LCD_SCL_SET     LCD_CTRL->BSRRL=LCD_SCL    
#define LCD_RST_SET     LCD_CTRL->BSRRL=LCD_RST    
#define LCD_LED_SET     LCD_CTRL->BSRRL=LCD_LED   

//液晶控制口置0操作语句宏定义
#define LCD_CS_CLR      LCD_CTRL->BSRRH=LCD_CS    
#define LCD_RS_CLR      LCD_CTRL->BSRRH=LCD_RS    
#define LCD_SDA_CLR     LCD_CTRL->BSRRH=LCD_SDA    
#define LCD_SCL_CLR     LCD_CTRL->BSRRH=LCD_SCL    
#define LCD_RST_CLR     LCD_CTRL->BSRRH=LCD_RST    
#define LCD_LED_CLR     LCD_CTRL->BSRRH=LCD_LED 
#define LCD_DATAOUT(x) LCD_DATA->ODR=x; //数据输出
#define LCD_DATAIN     LCD_DATA->IDR;   //数据输入
#define LCD_WR_DATA(data){\

LCD_RS_SET;\
LCD_CS_CLR;\
LCD_DATAOUT(data);\
LCD_WR_CLR;\
LCD_WR_SET;\
LCD_CS_SET;\
} 

void LCD_GPIO_Init(void);
void Lcd_WriteIndex(u8 Index);
void Lcd_WriteData(u8 Data);
void Lcd_WriteReg(u8 Index,u8 Data);
u16 Lcd_ReadReg(u8 LCD_Reg);
void Lcd_Reset(void);
void Lcd_Init(void);
void Lcd_Clear(u16 Color);
void Lcd_SetXY(u16 x,u16 y);
void Gui_DrawPoint(u16 x,u16 y,u16 Data);
unsigned int Lcd_ReadPoint(u16 x,u16 y);
void Lcd_SetRegion(u16 x_start,u16 y_start,u16 x_end,u16 y_end);
void LCD_WriteData_16Bit(u16 Data);

2、TFT驱动文件Lcd_Driver.c

#include "stm32f4xx.h"
#include "Lcd_Driver.h"
#include "LCD_Config.h"
#include "delay.h"

//本程序使用的是模拟SPI接口驱动
//可自由更改接口IO配置,使用任意最少4 IO即可完成液晶驱动显示

接口定义在Lcd_Driver.h内定义,请根据接线修改并修改相应IO初始化LCD_GPIO_Init()
#define LCD_CTRL        GPIOB       //定义TFT数据端口
#define LCD_LED         GPIO_Pin_9  //PB9--->>TFT --BL
#define LCD_RS          GPIO_Pin_10 //PB11--->>TFT --RS/DC
#define LCD_CS          GPIO_Pin_11  //PB11--->>TFT --CS/CE
#define LCD_RST             GPIO_Pin_12 //PB10--->>TFT --RST
#define LCD_SCL         GPIO_Pin_13 //PB13--->>TFT --SCL/SCK
#define LCD_SDA         GPIO_Pin_15 //PB15 MOSI--->>TFT --SDA/DIN
*******************************************************************************/

//液晶IO初始化配置
void LCD_GPIO_Init(void)
{
    GPIO_InitTypeDef  GPIO_InitStructure;      
    RCC_AHB1PeriphClockCmd(RCC_AHB1Periph_GPIOB ,ENABLE);   
    GPIO_InitStructure.GPIO_Pin = GPIO_Pin_9| GPIO_Pin_10| GPIO_Pin_11| GPIO_Pin_12 | GPIO_Pin_13 | GPIO_Pin_14| GPIO_Pin_15;
    GPIO_InitStructure.GPIO_Speed = GPIO_Speed_50MHz;
    GPIO_InitStructure.GPIO_Mode = GPIO_Mode_OUT;
    GPIO_Init(GPIOB, &GPIO_InitStructure);
      
}
//向SPI总线传输一个8位数据
void  SPI_WriteData(u8 Data)
{
    unsigned char i=0;
    for(i=8;i>0;i--)
    {
        if(Data&0x80)   
      LCD_SDA_SET; //输出数据
      else LCD_SDA_CLR;
       
      LCD_SCL_CLR;       
      LCD_SCL_SET;
      Data<<=1; 
    }
}
//向液晶屏写一个8位指令
void Lcd_WriteIndex(u8 Index)
{
   //SPI 写命令时序开始
   LCD_CS_CLR;
   LCD_RS_CLR;
     SPI_WriteData(Index);
   LCD_CS_SET;
}

//向液晶屏写一个8位数据
void Lcd_WriteData(u8 Data)
{
   LCD_CS_CLR;
   LCD_RS_SET;
   SPI_WriteData(Data);
   LCD_CS_SET; 
}
//向液晶屏写一个16位数据
void LCD_WriteData_16Bit(u16 Data)
{
   LCD_CS_CLR;
   LCD_RS_SET;
     SPI_WriteData(Data>>8);      //写入高8位数据
     SPI_WriteData(Data);           //写入低8位数据
   LCD_CS_SET; 
}

void Lcd_WriteReg(u8 Index,u8 Data)
{
    Lcd_WriteIndex(Index);
  Lcd_WriteData(Data);
}

void Lcd_Reset(void)
{
    LCD_RST_CLR;
    delay_ms(100);
    LCD_RST_SET;
    delay_ms(50);
}

//LCD Init For 1.44Inch LCD Panel with ST7735R.
void Lcd_Init(void)
{   
    LCD_GPIO_Init();
    Lcd_Reset(); //Reset before LCD Init.

    //LCD Init For 1.44Inch LCD Panel with ST7735R.
    Lcd_WriteIndex(0x11);//Sleep exit 
    delay_ms (120);
        
    //ST7735R Frame Rate
    Lcd_WriteIndex(0xB1); 
    Lcd_WriteData(0x01); 
    Lcd_WriteData(0x2C); 
    Lcd_WriteData(0x2D); 

    Lcd_WriteIndex(0xB2); 
    Lcd_WriteData(0x01); 
    Lcd_WriteData(0x2C); 
    Lcd_WriteData(0x2D); 

    Lcd_WriteIndex(0xB3); 
    Lcd_WriteData(0x01); 
    Lcd_WriteData(0x2C); 
    Lcd_WriteData(0x2D); 
    Lcd_WriteData(0x01); 
    Lcd_WriteData(0x2C); 
    Lcd_WriteData(0x2D); 
    
    Lcd_WriteIndex(0xB4); //Column inversion 
    Lcd_WriteData(0x07); 
    
    //ST7735R Power Sequence
    Lcd_WriteIndex(0xC0); 
    Lcd_WriteData(0xA2); 
    Lcd_WriteData(0x02); 
    Lcd_WriteData(0x84); 
    Lcd_WriteIndex(0xC1); 
    Lcd_WriteData(0xC5); 

    Lcd_WriteIndex(0xC2); 
    Lcd_WriteData(0x0A); 
    Lcd_WriteData(0x00); 

    Lcd_WriteIndex(0xC3); 
    Lcd_WriteData(0x8A); 
    Lcd_WriteData(0x2A); 
    Lcd_WriteIndex(0xC4); 
    Lcd_WriteData(0x8A); 
    Lcd_WriteData(0xEE); 
    
    Lcd_WriteIndex(0xC5); //VCOM 
    Lcd_WriteData(0x0E); 
    
    Lcd_WriteIndex(0x36); //MX, MY, RGB mode 
    Lcd_WriteData(0xC8); 
    
    //ST7735R Gamma Sequence
    Lcd_WriteIndex(0xe0); 
    Lcd_WriteData(0x0f); 
    Lcd_WriteData(0x1a); 
    Lcd_WriteData(0x0f); 
    Lcd_WriteData(0x18); 
    Lcd_WriteData(0x2f); 
    Lcd_WriteData(0x28); 
    Lcd_WriteData(0x20); 
    Lcd_WriteData(0x22); 
    Lcd_WriteData(0x1f); 
    Lcd_WriteData(0x1b); 
    Lcd_WriteData(0x23); 
    Lcd_WriteData(0x37); 
    Lcd_WriteData(0x00);    
    Lcd_WriteData(0x07); 
    Lcd_WriteData(0x02); 
    Lcd_WriteData(0x10); 

    Lcd_WriteIndex(0xe1); 
    Lcd_WriteData(0x0f); 
    Lcd_WriteData(0x1b); 
    Lcd_WriteData(0x0f); 
    Lcd_WriteData(0x17); 
    Lcd_WriteData(0x33); 
    Lcd_WriteData(0x2c); 
    Lcd_WriteData(0x29); 
    Lcd_WriteData(0x2e); 
    Lcd_WriteData(0x30); 
    Lcd_WriteData(0x30); 
    Lcd_WriteData(0x39); 
    Lcd_WriteData(0x3f); 
    Lcd_WriteData(0x00); 
    Lcd_WriteData(0x07); 
    Lcd_WriteData(0x03); 
    Lcd_WriteData(0x10);  
    
    Lcd_WriteIndex(0x2a);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x7f);

    Lcd_WriteIndex(0x2b);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x00);
    Lcd_WriteData(0x9f);
    
    Lcd_WriteIndex(0xF0); //Enable test command  
    Lcd_WriteData(0x01); 
    Lcd_WriteIndex(0xF6); //Disable ram power save mode 
    Lcd_WriteData(0x00); 
    
    Lcd_WriteIndex(0x3A); //65k mode 
    Lcd_WriteData(0x05); 
    
    
    Lcd_WriteIndex(0x29);//Display on    
}


/*************************************************
函数名:LCD_Set_Region
功能:设置lcd显示区域,在此区域写点数据自动换行
入口参数:xy起点和终点
返回值:无
*************************************************/
void Lcd_SetRegion(u16 x_start,u16 y_start,u16 x_end,u16 y_end)
{       
    Lcd_WriteIndex(0x2a);
    Lcd_WriteData(0x00);
    Lcd_WriteData(x_start+2);
    Lcd_WriteData(0x00);
    Lcd_WriteData(x_end+2);

    Lcd_WriteIndex(0x2b);
    Lcd_WriteData(0x00);
    Lcd_WriteData(y_start+3);
    Lcd_WriteData(0x00);
    Lcd_WriteData(y_end+3);
    
    Lcd_WriteIndex(0x2c);

}

/*************************************************
函数名:LCD_Set_XY
功能:设置lcd显示起始点
入口参数:xy坐标
返回值:无
*************************************************/
void Lcd_SetXY(u16 x,u16 y)
{
    Lcd_SetRegion(x,y,x,y);
}

    
/*************************************************
函数名:LCD_DrawPoint
功能:画一个点
入口参数:无
返回值:无
*************************************************/
void Gui_DrawPoint(u16 x,u16 y,u16 Data)
{
    Lcd_SetRegion(x,y,x+1,y+1);
    LCD_WriteData_16Bit(Data);

}    

/*****************************************
 函数功能:读TFT某一点的颜色                          
 出口参数:color  点颜色值                                 
******************************************/
unsigned int Lcd_ReadPoint(u16 x,u16 y)
{
  unsigned int Data;
  Lcd_SetXY(x,y);

  //Lcd_ReadData();//丢掉无用字节
  //Data=Lcd_ReadData();
  Lcd_WriteData(Data);
  return Data;
}
/*************************************************
函数名:Lcd_Clear
功能:全屏清屏函数
入口参数:填充颜色COLOR
返回值:无
*************************************************/
void Lcd_Clear(u16 Color)               
{   
   unsigned int i,m;
   Lcd_SetRegion(0,0,X_MAX_PIXEL-1,Y_MAX_PIXEL-1);
   Lcd_WriteIndex(0x2C);
   for(i=0;i<X_MAX_PIXEL;i++)
    for(m=0;m<Y_MAX_PIXEL;m++)
    {   
        LCD_WriteData_16Bit(Color);
    }   
}

3、延时函数文件delay.c

#include "stm32f4xx.h"
#include "delay.h" 
static u8  fac_us=0;//us延时倍乘数
static u16 fac_ms=0;//ms延时倍乘数
//初始化延迟函数
//SYSTICK的时钟固定为HCLK时钟的1/8
//SYSCLK:系统时钟
void delay_init(u8 SYSCLK)
{
    SysTick->CTRL&=0xfffffffb;//bit2清空,选择外部时钟  HCLK/8
    fac_us=SYSCLK/8;            
    fac_ms=(u16)fac_us*1000;
}                                   
//延时nms
//注意nms的范围
//SysTick->LOAD为24位寄存器,所以,最大延时为:
//nms<=0xffffff*8*1000/SYSCLK
//SYSCLK单位为Hz,nms单位为ms
//对72M条件下,nms<=1864 
void delay_ms(u16 nms)
{                 
    u32 temp;          
    SysTick->LOAD=(u32)nms*fac_ms;//时间加载(SysTick->LOAD为24bit)
    SysTick->VAL =0x00;           //清空计数器
    SysTick->CTRL=0x01 ;          //开始倒数  
    do
    {
        temp=SysTick->CTRL;
    }
    while(temp&0x01&&!(temp&(1<<16)));//等待时间到达   
    SysTick->CTRL=0x00;       //关闭计数器
    SysTick->VAL =0X00;       //清空计数器           
}   
//延时nus
//nus为要延时的us数.                                             
void delay_us(u32 nus)
{       
    u32 temp;            
    SysTick->LOAD=nus*fac_us; //时间加载             
    SysTick->VAL=0x00;        //清空计数器
    SysTick->CTRL=0x01 ;      //开始倒数     
    do
    {
        temp=SysTick->CTRL;
    }
    while(temp&0x01&&!(temp&(1<<16)));//等待时间到达   
    SysTick->CTRL=0x00;       //关闭计数器
    SysTick->VAL =0X00;       //清空计数器    
}

4、图像显示驱动文件GUI.c

#include "stm32f4xx.h"
#include "Lcd_Driver.h"
#include "GUI.h"
#include "delay.h"
#include "font.h"
//从ILI93xx读出的数据为GBR格式,而我们写入的时候为RGB格式。
//通过该函数转换
//c:GBR格式的颜色值
//返回值:RGB格式的颜色值
u16 LCD_BGR2RGB(u16 c)
{
  u16  r,g,b,rgb;   
  b=(c>>0)&0x1f;
  g=(c>>5)&0x3f;
  r=(c>>11)&0x1f;    
  rgb=(b<<11)+(g<<5)+(r<<0);         
  return(rgb);

}
void Gui_Circle(u16 X,u16 Y,u16 R,u16 fc) 
{//Bresenham算法 
    unsigned short  a,b; 
    int c; 
    a=0; 
    b=R; 
    c=3-2*R; 
    while (a<b) 
    { 
        Gui_DrawPoint(X+a,Y+b,fc);     //        7 
        Gui_DrawPoint(X-a,Y+b,fc);     //        6 
        Gui_DrawPoint(X+a,Y-b,fc);     //        2 
        Gui_DrawPoint(X-a,Y-b,fc);     //        3 
        Gui_DrawPoint(X+b,Y+a,fc);     //        8 
        Gui_DrawPoint(X-b,Y+a,fc);     //        5 
        Gui_DrawPoint(X+b,Y-a,fc);     //        1 
        Gui_DrawPoint(X-b,Y-a,fc);     //        4 

        if(c<0) c=c+4*a+6; 
        else 
        { 
            c=c+4*(a-b)+10; 
            b-=1; 
        } 
       a+=1; 
    } 
    if (a==b) 
    { 
        Gui_DrawPoint(X+a,Y+b,fc); 
        Gui_DrawPoint(X+a,Y+b,fc); 
        Gui_DrawPoint(X+a,Y-b,fc); 
        Gui_DrawPoint(X-a,Y-b,fc); 
        Gui_DrawPoint(X+b,Y+a,fc); 
        Gui_DrawPoint(X-b,Y+a,fc); 
        Gui_DrawPoint(X+b,Y-a,fc); 
        Gui_DrawPoint(X-b,Y-a,fc); 
    } 
    
} 
//画线函数,使用Bresenham 画线算法
void Gui_DrawLine(u16 x0, u16 y0,u16 x1, u16 y1,u16 Color)   
{
int dx,             // difference in x's
    dy,             // difference in y's
    dx2,            // dx,dy * 2
    dy2, 
    x_inc,          // amount in pixel space to move during drawing
    y_inc,          // amount in pixel space to move during drawing
    error,          // the discriminant i.e. error i.e. decision variable
    index;          // used for looping 


    Lcd_SetXY(x0,y0);
    dx = x1-x0;//计算x距离
    dy = y1-y0;//计算y距离

    if (dx>=0)
    {
        x_inc = 1;
    }
    else
    {
        x_inc = -1;
        dx    = -dx;  
    } 
    
    if (dy>=0)
    {
        y_inc = 1;
    } 
    else
    {
        y_inc = -1;
        dy    = -dy; 
    } 

    dx2 = dx << 1;
    dy2 = dy << 1;

    if (dx > dy)//x距离大于y距离,那么每个x轴上只有一个点,每个y轴上有若干个点
    {//且线的点数等于x距离,以x轴递增画点
        // initialize error term
        error = dy2 - dx; 

        // draw the line
        for (index=0; index <= dx; index++)//要画的点数不会超过x距离
        {
            //画点
            Gui_DrawPoint(x0,y0,Color);
            
            // test if error has overflowed
            if (error >= 0) //是否需要增加y坐标值
            {
                error-=dx2;

                // move to next line
                y0+=y_inc;//增加y坐标值
            } // end if error overflowed

            // adjust the error term
            error+=dy2;

            // move to the next pixel
            x0+=x_inc;//x坐标值每次画点后都递增1
        } // end for
    } // end if |slope| <= 1
    else//y轴大于x轴,则每个y轴上只有一个点,x轴若干个点
    {//以y轴为递增画点
        // initialize error term
        error = dx2 - dy; 

        // draw the line
        for (index=0; index <= dy; index++)
        {
            // set the pixel
            Gui_DrawPoint(x0,y0,Color);

            // test if error overflowed
            if (error >= 0)
            {
                error-=dy2;

                // move to next line
                x0+=x_inc;
            } // end if error overflowed

            // adjust the error term
            error+=dx2;

            // move to the next pixel
            y0+=y_inc;
        } // end for
    } // end else |slope| > 1
}



void Gui_box(u16 x, u16 y, u16 w, u16 h,u16 bc)
{
    Gui_DrawLine(x,y,x+w,y,0xEF7D);
    Gui_DrawLine(x+w-1,y+1,x+w-1,y+1+h,0x2965);
    Gui_DrawLine(x,y+h,x+w,y+h,0x2965);
    Gui_DrawLine(x,y,x,y+h,0xEF7D);
    Gui_DrawLine(x+1,y+1,x+1+w-2,y+1+h-2,bc);
}
void Gui_box2(u16 x,u16 y,u16 w,u16 h, u8 mode)
{
    if (mode==0)    {
        Gui_DrawLine(x,y,x+w,y,0xEF7D);
        Gui_DrawLine(x+w-1,y+1,x+w-1,y+1+h,0x2965);
        Gui_DrawLine(x,y+h,x+w,y+h,0x2965);
        Gui_DrawLine(x,y,x,y+h,0xEF7D);
        }
    if (mode==1)    {
        Gui_DrawLine(x,y,x+w,y,0x2965);
        Gui_DrawLine(x+w-1,y+1,x+w-1,y+1+h,0xEF7D);
        Gui_DrawLine(x,y+h,x+w,y+h,0xEF7D);
        Gui_DrawLine(x,y,x,y+h,0x2965);
    }
    if (mode==2)    {
        Gui_DrawLine(x,y,x+w,y,0xffff);
        Gui_DrawLine(x+w-1,y+1,x+w-1,y+1+h,0xffff);
        Gui_DrawLine(x,y+h,x+w,y+h,0xffff);
        Gui_DrawLine(x,y,x,y+h,0xffff);
    }
}


/**************************************************************************************
功能描述: 在屏幕显示一凸起的按钮框
输    入: u16 x1,y1,x2,y2 按钮框左上角和右下角坐标
输    出: 无
**************************************************************************************/
void DisplayButtonDown(u16 x1,u16 y1,u16 x2,u16 y2)
{
    Gui_DrawLine(x1,  y1,  x2,y1, GRAY2);  //H
    Gui_DrawLine(x1+1,y1+1,x2,y1+1, GRAY1);  //H
    Gui_DrawLine(x1,  y1,  x1,y2, GRAY2);  //V
    Gui_DrawLine(x1+1,y1+1,x1+1,y2, GRAY1);  //V
    Gui_DrawLine(x1,  y2,  x2,y2, WHITE);  //H
    Gui_DrawLine(x2,  y1,  x2,y2, WHITE);  //V
}

/**************************************************************************************
功能描述: 在屏幕显示一凹下的按钮框
输    入: u16 x1,y1,x2,y2 按钮框左上角和右下角坐标
输    出: 无
**************************************************************************************/
void DisplayButtonUp(u16 x1,u16 y1,u16 x2,u16 y2)
{
    Gui_DrawLine(x1,  y1,  x2,y1, WHITE); //H
    Gui_DrawLine(x1,  y1,  x1,y2, WHITE); //V
    
    Gui_DrawLine(x1+1,y2-1,x2,y2-1, GRAY1);  //H
    Gui_DrawLine(x1,  y2,  x2,y2, GRAY2);  //H
    Gui_DrawLine(x2-1,y1+1,x2-1,y2, GRAY1);  //V
    Gui_DrawLine(x2  ,y1  ,x2,y2, GRAY2); //V
}


void Gui_DrawFont_GBK16(u16 x, u16 y, u16 fc, u16 bc, u8 *s)
{
    unsigned char i,j;
    unsigned short k,x0;
    x0=x;

    while(*s) 
    {   
        if((*s) < 128) 
        {
            k=*s;
            if (k==13) 
            {
                x=x0;
                y+=16;
            }
            else 
            {
                if (k>32) k-=32; else k=0;
    
                for(i=0;i<16;i++)
                for(j=0;j<8;j++) 
                    {
                        if(asc16[k*16+i]&(0x80>>j)) Gui_DrawPoint(x+j,y+i,fc);
                        else 
                        {
                            if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);
                        }
                    }
                x+=8;
            }
            s++;
        }
            
        else 
        {
        

            for (k=0;k<hz16_num;k++) 
            {
              if ((hz16[k].Index[0]==*(s))&&(hz16[k].Index[1]==*(s+1)))
              { 
                    for(i=0;i<16;i++)
                    {
                        for(j=0;j<8;j++) 
                            {
                                if(hz16[k].Msk[i*2]&(0x80>>j))  Gui_DrawPoint(x+j,y+i,fc);
                                else {
                                    if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);
                                }
                            }
                        for(j=0;j<8;j++) 
                            {
                                if(hz16[k].Msk[i*2+1]&(0x80>>j))    Gui_DrawPoint(x+j+8,y+i,fc);
                                else 
                                {
                                    if (fc!=bc) Gui_DrawPoint(x+j+8,y+i,bc);
                                }
                            }
                    }
                }
              }
            s+=2;x+=16;
        } 
        
    }
}

void Gui_DrawFont_GBK24(u16 x, u16 y, u16 fc, u16 bc, u8 *s)
{
    unsigned char i,j;
    unsigned short k;

    while(*s) 
    {
        if( *s < 0x80 ) 
        {
            k=*s;
            if (k>32) k-=32; else k=0;

            for(i=0;i<16;i++)
            for(j=0;j<8;j++) 
                {
                    if(asc16[k*16+i]&(0x80>>j)) 
                    Gui_DrawPoint(x+j,y+i,fc);
                    else 
                    {
                        if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);
                    }
                }
            s++;x+=8;
        }
        else 
        {

            for (k=0;k<hz24_num;k++) 
            {
              if ((hz24[k].Index[0]==*(s))&&(hz24[k].Index[1]==*(s+1)))
              { 
                    for(i=0;i<24;i++)
                    {
                        for(j=0;j<8;j++) 
                            {
                                if(hz24[k].Msk[i*3]&(0x80>>j))
                                Gui_DrawPoint(x+j,y+i,fc);
                                else 
                                {
                                    if (fc!=bc) Gui_DrawPoint(x+j,y+i,bc);
                                }
                            }
                        for(j=0;j<8;j++) 
                            {
                                if(hz24[k].Msk[i*3+1]&(0x80>>j))    Gui_DrawPoint(x+j+8,y+i,fc);
                                else {
                                    if (fc!=bc) Gui_DrawPoint(x+j+8,y+i,bc);
                                }
                            }
                        for(j=0;j<8;j++) 
                            {
                                if(hz24[k].Msk[i*3+2]&(0x80>>j))    
                                Gui_DrawPoint(x+j+16,y+i,fc);
                                else 
                                {
                                    if (fc!=bc) Gui_DrawPoint(x+j+16,y+i,bc);
                                }
                            }
                    }
              }
            }
            s+=2;x+=24;
        }
    }
}
void Gui_DrawFont_Num32(u16 x, u16 y, u16 fc, u16 bc, u16 num)
{
    unsigned char i,j,k,c;
    //lcd_text_any(x+94+i*42,y+34,32,32,0x7E8,0x0,sz32,knum[i]);
//  w=w/8;

    for(i=0;i<32;i++)
    {
        for(j=0;j<4;j++) 
        {
            c=*(sz32+num*32*4+i*4+j);
            for (k=0;k<8;k++)   
            {
    
                if(c&(0x80>>k)) Gui_DrawPoint(x+j*8+k,y+i,fc);
                else {
                    if (fc!=bc) Gui_DrawPoint(x+j*8+k,y+i,bc);
                }
            }
        }
    }
}

5、TFT显示图像文件QDTFT_demo.c

#include "stm32f4xx.h"
#include "Lcd_Driver.h"
#include "GUI.h"
#include "delay.h"
#include "Picture.h"
#include "QDTFT_demo.h"
unsigned char Num[10]={0,1,2,3,4,5,6,7,8,9};
void Redraw_Mainmenu(void)
{

    Lcd_Clear(GRAY0);
    
    Gui_DrawFont_GBK16(48,0,BLUE,GRAY0,"CSDN");
    
//  DisplayButtonUp(15,18,113,28);
    Gui_DrawFont_GBK16(32,20,RED,GRAY0,"AXYZdong");

    DisplayButtonUp(15,38,113,58); //x1,y1,x2,y2
    Gui_DrawFont_GBK16(32,40,YELLOW,GRAY0,"文字显示");

    DisplayButtonUp(15,68,113,88); //x1,y1,x2,y2
    Gui_DrawFont_GBK16(2,70,BLUE,GRAY0,"Tel:17855525056");

    DisplayButtonUp(15,98,113,118); //x1,y1,x2,y2
    Gui_DrawFont_GBK16(0,100,RED,GRAY0,"www.AXYZdong.com");
    delay_ms(1500);
}

void Num_Test(void)
{
    u8 i=0;
    Lcd_Clear(GRAY0);
    Gui_DrawFont_GBK16(32,60,RED,GRAY0,"Num Test");
    delay_ms(1000);
    Lcd_Clear(GRAY0);

    for(i=0;i<10;i++)
    {
    Gui_DrawFont_Num32((i%3)*42,32*(i/3),RED,GRAY0,Num[i+1]);
    delay_ms(100);
    }
    
}

void Font_Test(void)
{
    Lcd_Clear(GRAY0);
    Gui_DrawFont_GBK16(16,60,BLUE,GRAY0,"文字显示测试");

    delay_ms(1000);
    Lcd_Clear(GRAY0);
    Gui_DrawFont_GBK16(16,20,YELLOW,GRAY0,"全动电子技术");
    Gui_DrawFont_GBK16(16,40,BLUE,GRAY0,"专注液晶批发");
    Gui_DrawFont_GBK16(16,60,RED,GRAY0, "全程技术支持");
    Gui_DrawFont_GBK16(4,80,BLUE,GRAY0,"Tel:17855525056");
    Gui_DrawFont_GBK16(4,100,RED,GRAY0, "www.youdong.com"); 
    delay_ms(1800); 
}

void Color_Test(void)
{
    u8 i=1;
    Lcd_Clear(GRAY0);
    
    Gui_DrawFont_GBK16(24,60,BLUE,GRAY0,"Color Test");
    delay_ms(200);

    while(i--)
    {
        Lcd_Clear(WHITE);
        Lcd_Clear(BLACK);
        Lcd_Clear(RED);
      Lcd_Clear(GREEN);
      Lcd_Clear(BLUE);
    }       
}

//取模方式 水平扫描 从左到右 低位在前
void showimage(const unsigned char *p) //显示40*40 QQ图片
{
    int i,j,k; 
    unsigned char picH,picL;
    Lcd_Clear(WHITE); //清屏  
    
    for(k=0;k<3;k++)
    {
        for(j=0;j<3;j++)
        {   
            Lcd_SetRegion(40*j,40*k,40*j+39,40*k+39);       //坐标设置
            for(i=0;i<40*40;i++)
             {  
                picL=*(p+i*2);  //数据低位在前
                picH=*(p+i*2+1);                
                LCD_WriteData_16Bit(picH<<8|picL);                          
             }  
         }
    }       
}

//取模方式 水平扫描 从左到右 低位在前
void showphoto(const unsigned char *p) //显示128*128图片
{
    int i; 
    unsigned char picH,picL;
//  Lcd_Clear(WHITE); //清屏  
    
    Lcd_SetRegion(0,0,127,127);     //坐标设置
        for(i=0;i<128*128;i++)
     {  
        picL=*(p+i*2);  //数据低位在前
        picH=*(p+i*2+1);                
        LCD_WriteData_16Bit(picH<<8|picL);                          
     }      
}
void QDTFT_Test_Demo(void)
{
//  Lcd_Init();
    LCD_LED_SET;//通过IO控制背光亮             
    Redraw_Mainmenu();//绘制主菜单(部分内容由于分辨率超出物理值可能无法显示)
//  Color_Test();//简单纯色填充
//  Num_Test();//数码管字体
//  Font_Test();//中英文显示     
//  showphoto(gImage_Robotmaster);//图片显示示例
//  delay_ms(1200);
//  LCD_LED_CLR;//IO控制背光灭   
}

6、主函数main.c

//  作    者   : AXYZdong
//  生成日期   : 2020-02-03
//  最近修改   : 2020-03-02 
//  功能描述   : TFT SPI接口演示例程(stm32系列)
//              GND    电源地
//              VCC  接5V或3.3v电源
//              LED  接PB9
//              SCL  接PB10
//              SDA  接PB12
//              RS   接PB11
//              RST  接PB14
//              CS   接PB13               
//              ------------------------------------------------------------ 

/*Left--Right Pin:VCC GND GND NC NC LED SCL SDA RS RST CS*/

#include "stm32f4xx.h"
#include "delay.h"
#include "QDTFT_demo.h"
#include "Lcd_Driver.h"
#include "GUI.h"


int main(void)
{

  SystemInit();     //System init.
  delay_init(72);   //Delay init.
  Lcd_Init();
  while(1)
  {  
    QDTFT_Test_Demo();  //See the test details in QDTFT_Demo.c      
  }

}

上的代码比较多,如有不懂的地方可以私信我呢。
上面程序实现的功能我拍了两张图片,可以看看。


在这里插入图片描述

当然,显示字符、汉字和图片是TFT最最基本的功能,作为一个显示的媒介,如果与其他的器件建立起通信,将其他器件产生的信息在TFT上显示出来,这样我们就可以直观的获取想要的信息。

那么,该如何建立相互之间的通信关系?如何直观的显示在TFT上?是我今后所要探索和学习的地方。博客也会不定期更新,期待不久的某一篇会更新到相关内容。(hhh,先卖个关子)

下一篇,更精彩!

如果觉着帮到你的话,\color{ red}{点个赞支持一下呢}!!!^ _ ^
码字不易,大家的支持就是我坚持下去的动力。点赞后不要忘了\color{ red}{关注}我哦!

上一篇下一篇

猜你喜欢

热点阅读