/***************************************************************************** * | File : GUI_BMPfile.h * | Author : Waveshare team * | Function : Hardware underlying interface * | Info : * Used to shield the underlying layers of each master * and enhance portability *---------------- * | This version: V2.3 * | Date : 2022-07-27 * | Info : * ----------------------------------------------------------------------------- * V2.3(2022-07-27): * 1.Add GUI_ReadBmp_RGB_4Color() * V2.2(2020-07-08): * 1.Add GUI_ReadBmp_RGB_7Color() * V2.1(2019-10-10): * 1.Add GUI_ReadBmp_4Gray() * V2.0(2018-11-12): * 1.Change file name: GUI_BMP.h -> GUI_BMPfile.h * 2.fix: GUI_ReadBmp() * Now Xstart and Xstart can control the position of the picture normally, * and support the display of images of any size. If it is larger than * the actual display range, it will not be displayed. # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documnetation files (the "Software"), to deal # in the Software without restriction, including without limitation the rights # to use, copy, modify, merge, publish, distribute, sublicense, and/or sell # copies of the Software, and to permit persons to whom the Software is # furished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS OR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, # OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN # THE SOFTWARE. # ******************************************************************************/ #include "GUI_BMPfile.h" #include "GUI_Paint.h" #include "Debug.h" #include #include #include #include //exit() #include //memset() #include //memset() #include UBYTE GUI_ReadBmp(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); UWORD Image_Width_Byte = (bmpInfoHeader.biWidth % 8 == 0)? (bmpInfoHeader.biWidth / 8): (bmpInfoHeader.biWidth / 8 + 1); UWORD Bmp_Width_Byte = (Image_Width_Byte % 4 == 0) ? Image_Width_Byte: ((Image_Width_Byte / 4 + 1) * 4); UBYTE Image[Image_Width_Byte * bmpInfoHeader.biHeight]; memset(Image, 0xFF, Image_Width_Byte * bmpInfoHeader.biHeight); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; if(readbyte != 1) { Debug("the bmp Image is not a monochrome bitmap!\n"); exit(0); } // Determine black and white based on the palette UWORD i; UWORD Bcolor, Wcolor; UWORD bmprgbquadsize = pow(2, bmpInfoHeader.biBitCount);// 2^1 = 2 BMPRGBQUAD bmprgbquad[bmprgbquadsize]; //palette // BMPRGBQUAD bmprgbquad[2]; //palette for(i = 0; i < bmprgbquadsize; i++){ // for(i = 0; i < 2; i++) { fread(&bmprgbquad[i], sizeof(BMPRGBQUAD), 1, fp); } if(bmprgbquad[0].rgbBlue == 0xff && bmprgbquad[0].rgbGreen == 0xff && bmprgbquad[0].rgbRed == 0xff) { Bcolor = BLACK; Wcolor = WHITE; } else { Bcolor = WHITE; Wcolor = BLACK; } // Read image data into the cache UWORD x, y; UBYTE Rdata; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for(y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for(x = 0; x < Bmp_Width_Byte; x++) {//Show a line in the line if(fread((char *)&Rdata, 1, readbyte, fp) != readbyte) { perror("get bmpdata:\r\n"); break; } if(x < Image_Width_Byte) { //bmp Image[x + (bmpInfoHeader.biHeight - y - 1) * Image_Width_Byte] = Rdata; // printf("rdata = %d\r\n", Rdata); } } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation UBYTE color, temp; for(y = 0; y < bmpInfoHeader.biHeight; y++) { for(x = 0; x < bmpInfoHeader.biWidth; x++) { if(x > Paint.Width || y > Paint.Height) { break; } temp = Image[(x / 8) + (y * Image_Width_Byte)]; color = (((temp << (x%8)) & 0x80) == 0x80) ?Bcolor:Wcolor; Paint_SetPixel(Xstart + x, Ystart + y, color); } } return 0; } /************************************************************************* *************************************************************************/ UBYTE GUI_ReadBmp_4Gray(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); UWORD Image_Width_Byte = (bmpInfoHeader.biWidth % 4 == 0)? (bmpInfoHeader.biWidth / 4): (bmpInfoHeader.biWidth / 4 + 1); UWORD Bmp_Width_Byte = (bmpInfoHeader.biWidth % 2 == 0)? (bmpInfoHeader.biWidth / 2): (bmpInfoHeader.biWidth / 2 + 1); UBYTE Image[Image_Width_Byte * bmpInfoHeader.biHeight * 2]; memset(Image, 0xFF, Image_Width_Byte * bmpInfoHeader.biHeight * 2); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; printf("biBitCount = %d\r\n",readbyte); if(readbyte != 4){ Debug("Bmp image is not a 4-color bitmap!\n"); exit(0); } // Read image data into the cache UWORD x, y; UBYTE Rdata; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for(y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for(x = 0; x < Bmp_Width_Byte; x++) {//Show a line in the line if(fread((char *)&Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(x < Image_Width_Byte*2) { //bmp Image[x + (bmpInfoHeader.biHeight - y - 1) * Image_Width_Byte*2] = Rdata; } } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation UBYTE color, temp; printf("bmpInfoHeader.biWidth = %d\r\n",bmpInfoHeader.biWidth); printf("bmpInfoHeader.biHeight = %d\r\n",bmpInfoHeader.biHeight); for(y = 0; y < bmpInfoHeader.biHeight; y++) { for(x = 0; x < bmpInfoHeader.biWidth; x++) { if(x > Paint.Width || y > Paint.Height) { break; } temp = Image[x/2 + y * bmpInfoHeader.biWidth/2] >> ((x%2)? 0:4);//0xf 0x8 0x7 0x0 color = temp>>2; //11 10 01 00 Paint_SetPixel(Xstart + x, Ystart + y, color); } } return 0; } UBYTE GUI_ReadBmp_16Gray(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); // They are both the same width in bytes // round up to the next byte UWORD Width_Byte = (bmpInfoHeader.biWidth + 1) / 2; UBYTE Image[Width_Byte * bmpInfoHeader.biHeight]; memset(Image, 0xFF, Width_Byte * bmpInfoHeader.biHeight); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; printf("biBitCount = %d\r\n",readbyte); if(readbyte != 4) { Debug("Bmp image is not a 4-bit bitmap!\n"); exit(0); } // Determine colors based on the palette // A map from palette entry to color UBYTE colors[16]; UBYTE i; BMPRGBQUAD rgbData; for (i = 0; i < 16; i++){ fread(&rgbData, sizeof(BMPRGBQUAD), 1, fp); // Work out the closest colour // 16 colours over 0-255 => 0-8 => 0, 9-25 => 1 (17), 26-42 => 2 (34), etc // Base it on red colors[i] = (rgbData.rgbRed + 8) / 17; } // Read image data into the cache UWORD x, y; UBYTE Rdata; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for (y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for (x = 0; x < Width_Byte; x++) {//Show a line in the line if (fread((char *) &Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } Image[x + (bmpInfoHeader.biHeight - y - 1) * Width_Byte] = Rdata; } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation UBYTE coloridx; printf("bmpInfoHeader.biWidth = %d\r\n", bmpInfoHeader.biWidth); printf("bmpInfoHeader.biHeight = %d\r\n", bmpInfoHeader.biHeight); for (y = 0; y < bmpInfoHeader.biHeight; y++) { for (x = 0; x < bmpInfoHeader.biWidth; x++) { if (Xstart + x > Paint.Width || Ystart + y > Paint.Height) break; coloridx = (Image[x / 2 + y * Width_Byte] >> ((x % 2) ? 0 : 4)) & 15; Paint_SetPixel(Xstart + x, Ystart + y, colors[coloridx]); } } return 0; } UBYTE GUI_ReadBmp_RGB_7Color(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); UDOUBLE Image_Byte = bmpInfoHeader.biWidth * bmpInfoHeader.biHeight * 3; UBYTE Image[Image_Byte]; memset(Image, 0xFF, Image_Byte); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; if(readbyte != 24){ Debug("Bmp image is not 24 bitmap!\n"); exit(0); } // Read image data into the cache UWORD x, y; UBYTE Rdata[3]; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for(y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for(x = 0; x < bmpInfoHeader.biWidth ; x++) {//Show a line in the line if(fread((char *)Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+1, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+2, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(Rdata[0] == 0 && Rdata[1] == 0 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 0;//Black }else if(Rdata[0] == 255 && Rdata[1] == 255 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 1;//White }else if(Rdata[0] == 0 && Rdata[1] == 255 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 2;//Green }else if(Rdata[0] == 255 && Rdata[1] == 0 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 3;//Blue }else if(Rdata[0] == 0 && Rdata[1] == 0 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 4;//Red }else if(Rdata[0] == 0 && Rdata[1] == 255 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 5;//Yellow }else if(Rdata[0] == 0 && Rdata[1] == 128 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 6;//Orange } } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation for(y = 0; y < bmpInfoHeader.biHeight; y++) { for(x = 0; x < bmpInfoHeader.biWidth; x++) { if(x > Paint.Width || y > Paint.Height) { break; } Paint_SetPixel(Xstart + x, Ystart + y, Image[bmpInfoHeader.biHeight * bmpInfoHeader.biWidth - 1 -(bmpInfoHeader.biWidth-x-1+(y* bmpInfoHeader.biWidth))]); } } return 0; } UBYTE GUI_ReadBmp_RGB_4Color(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); UDOUBLE Image_Byte = bmpInfoHeader.biWidth * bmpInfoHeader.biHeight * 3; UBYTE Image[Image_Byte]; memset(Image, 0xFF, Image_Byte); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; if(readbyte != 24){ Debug("Bmp image is not 24 bitmap!\n"); exit(0); } // Read image data into the cache UWORD x, y; UBYTE Rdata[3]; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for(y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for(x = 0; x < bmpInfoHeader.biWidth ; x++) {//Show a line in the line if(fread((char *)Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+1, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+2, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(Rdata[0] < 128 && Rdata[1] < 128 && Rdata[2] < 128){ Image[x+(y* bmpInfoHeader.biWidth )] = 0;//Black }else if(Rdata[0] > 127 && Rdata[1] > 127 && Rdata[2] > 127){ Image[x+(y* bmpInfoHeader.biWidth )] = 1;//White }else if(Rdata[0] < 128 && Rdata[1] > 127 && Rdata[2] > 127){ Image[x+(y* bmpInfoHeader.biWidth )] = 2;//Yellow }else if(Rdata[0] < 128 && Rdata[1] < 128 && Rdata[2] > 127){ Image[x+(y* bmpInfoHeader.biWidth )] = 3;//Red } } if(bmpInfoHeader.biWidth % 4 != 0) { for (UWORD i = 0; i < (bmpInfoHeader.biWidth % 4); i++) { if(fread((char *)Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } } } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation for(y = 0; y < bmpInfoHeader.biHeight; y++) { for(x = 0; x < bmpInfoHeader.biWidth; x++) { if(x > Paint.Width || y > Paint.Height) { break; } Paint_SetPixel(Xstart + x, Ystart + y, Image[bmpInfoHeader.biHeight * bmpInfoHeader.biWidth - 1 -(bmpInfoHeader.biWidth-x-1+(y* bmpInfoHeader.biWidth))]); } } return 0; } UBYTE GUI_ReadBmp_RGB_6Color(const char *path, UWORD Xstart, UWORD Ystart) { FILE *fp; //Define a file pointer BMPFILEHEADER bmpFileHeader; //Define a bmp file header structure BMPINFOHEADER bmpInfoHeader; //Define a bmp info header structure // Binary file open if((fp = fopen(path, "rb")) == NULL) { Debug("Cann't open the file!\n"); exit(0); } // Set the file pointer from the beginning fseek(fp, 0, SEEK_SET); fread(&bmpFileHeader, sizeof(BMPFILEHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 14 fread(&bmpInfoHeader, sizeof(BMPINFOHEADER), 1, fp); //sizeof(BMPFILEHEADER) must be 50 printf("pixel = %d * %d\r\n", bmpInfoHeader.biWidth, bmpInfoHeader.biHeight); UDOUBLE Image_Byte = bmpInfoHeader.biWidth * bmpInfoHeader.biHeight * 3; UBYTE Image[Image_Byte]; memset(Image, 0xFF, Image_Byte); // Determine if it is a monochrome bitmap int readbyte = bmpInfoHeader.biBitCount; if(readbyte != 24){ Debug("Bmp image is not 24 bitmap!\n"); exit(0); } // Read image data into the cache UWORD x, y; UBYTE Rdata[3]; fseek(fp, bmpFileHeader.bOffset, SEEK_SET); for(y = 0; y < bmpInfoHeader.biHeight; y++) {//Total display column for(x = 0; x < bmpInfoHeader.biWidth ; x++) {//Show a line in the line if(fread((char *)Rdata, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+1, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(fread((char *)Rdata+2, 1, 1, fp) != 1) { perror("get bmpdata:\r\n"); break; } if(Rdata[0] == 0 && Rdata[1] == 0 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 0;//Black }else if(Rdata[0] == 255 && Rdata[1] == 255 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 1;//White }else if(Rdata[0] == 0 && Rdata[1] == 255 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 2;//Yellow }else if(Rdata[0] == 0 && Rdata[1] == 0 && Rdata[2] == 255){ Image[x+(y* bmpInfoHeader.biWidth )] = 3;//Red // }else if(Rdata[0] == 0 && Rdata[1] == 128 && Rdata[2] == 255){ // Image[x+(y* bmpInfoHeader.biWidth )] = 4;//Orange }else if(Rdata[0] == 255 && Rdata[1] == 0 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 5;//Blue }else if(Rdata[0] == 0 && Rdata[1] == 255 && Rdata[2] == 0){ Image[x+(y* bmpInfoHeader.biWidth )] = 6;//Green } } } fclose(fp); // Refresh the image to the display buffer based on the displayed orientation for(y = 0; y < bmpInfoHeader.biHeight; y++) { for(x = 0; x < bmpInfoHeader.biWidth; x++) { if(x > Paint.Width || y > Paint.Height) { break; } Paint_SetPixel(Xstart + x, Ystart + y, Image[bmpInfoHeader.biHeight * bmpInfoHeader.biWidth - 1 -(bmpInfoHeader.biWidth-x-1+(y* bmpInfoHeader.biWidth))]); } } return 0; }