ref: 6f0d2c3ee753d40fd9bc5d325fe6605e4e38c3bc
dir: /src/gfx/bmp/bmp2pth.c/
#include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdint.h> #define OUTPUT_PAD_SIZE 20 #define RLE_ID 0xCC // DO NOT change this! static char input[4096 + 1]; static uint8_t *ToPtr, *DataPtr, *a0, *a1; static int32_t DataLen, CompLen, d0, d1, d4, d7; int main(int argc, char *argv[]) { char bitmap_magic[2], *out_filename; uint8_t p8_1, p8_2, p8_3, p8_4; int32_t bitmap_width, bitmap_height, bitmap_depth, bitmap_offset; int32_t x, y, i, oy, t; uint32_t *pixel_data, p32_1, p32_2, p32_3, p32_4; FILE *in, *out; #ifndef _DEBUG if (argc != 2) { printf("Usage: bmp2pth <bitmap.bmp>\n"); return -1; } strcpy(input, argv[1]); #else strcpy(input, "debug.bmp"); #endif in = fopen(input, "rb"); if (in == NULL) { printf("ERROR: Could not open input bitmap!\n"); system("PAUSE"); return 1; } out_filename = (char *)malloc(strlen(input) + 3); if (out_filename == NULL) { printf("ERROR: Out of memory!\n"); fclose(in); system("PAUSE"); return 1; } sprintf(out_filename, "%s.c", input); out = fopen(out_filename, "w"); if (out == NULL) { printf("ERROR: Could not open output bitmap!\n"); free(out_filename); fclose(in); system("PAUSE"); return 1; } fread(bitmap_magic, 1, 2, in); if (strncmp(bitmap_magic, "BM", 2) != 0) { printf("ERROR: Input is not a valid Windows bitmap!\n"); fclose(in); fclose(out); system("PAUSE"); return 1; } fseek(in, 0x12, SEEK_SET); fread(&bitmap_width, 4, 1, in); fread(&bitmap_height, 4, 1, in); fseek(in, 0x1C, SEEK_SET); fread(&bitmap_depth, 4, 1, in); bitmap_depth &= 0xFF; fseek(in, 0x0A, SEEK_SET); fread(&bitmap_offset, 4, 1, in); fseek(in, bitmap_offset, SEEK_SET); if (bitmap_depth != 16 && bitmap_depth != 24 && bitmap_depth != 32) { printf("ERROR: Bitmap is not truecolor bitmap (16, 24, 32)\n"); fclose(in); fclose(out); system("PAUSE"); return 1; } pixel_data = (uint32_t *)malloc(bitmap_width * bitmap_height * (bitmap_depth / 8)); if (pixel_data == NULL) { printf("ERROR: Out of memory!\n"); fclose(in); fclose(out); system("PAUSE"); return 1; } if (fread(pixel_data, bitmap_depth / 8, bitmap_width * bitmap_height, in) != (size_t)(bitmap_width * bitmap_height)) { printf("ERROR: Could not copy bitmap data into memory!\n"); fclose(in); fclose(out); free(pixel_data); system("PAUSE"); return 1; } // mirror pixel data so we get the real deal for (y = 0; y < bitmap_height/2; y++) { for (x = 0; x < bitmap_width; x++) { oy = bitmap_height - 1 - y; t = pixel_data[y * bitmap_width + x]; pixel_data[y * bitmap_width + x] = pixel_data[oy * bitmap_width + x]; pixel_data[oy * bitmap_width + x] = t; } } DataLen = (bitmap_width * bitmap_height) / 4; DataPtr = (uint8_t *)malloc(DataLen); for (i = 0; i < DataLen; i++) { p32_1 = pixel_data[(i * 4) + 0]; p32_2 = pixel_data[(i * 4) + 1]; p32_3 = pixel_data[(i * 4) + 2]; p32_4 = pixel_data[(i * 4) + 3]; if (p32_1 == 0x000000) p8_1 = 0; else if (p32_1 == 0xBBBBBB) p8_1 = 1; else if (p32_1 == 0x888888) p8_1 = 2; else if (p32_1 == 0x555555) p8_1 = 3; else { printf("ERROR: Illegal pixel 0x%08X found. Stopping!\n", p32_1); free(pixel_data); free(DataPtr); system("PAUSE"); return 1; } if (p32_2 == 0x000000) p8_2 = 0; else if (p32_2 == 0xBBBBBB) p8_2 = 1; else if (p32_2 == 0x888888) p8_2 = 2; else if (p32_2 == 0x555555) p8_2 = 3; else { printf("ERROR: Illegal pixel 0x%08X found. Stopping!\n", p32_2); free(pixel_data); free(DataPtr); fclose(out); system("PAUSE"); return (1); } if (p32_3 == 0x000000) p8_3 = 0; else if (p32_3 == 0xBBBBBB) p8_3 = 1; else if (p32_3 == 0x888888) p8_3 = 2; else if (p32_3 == 0x555555) p8_3 = 3; else { printf("ERROR: Illegal pixel 0x%08X found. Stopping!\n", p32_3); free(pixel_data); free(DataPtr); fclose(out); system("PAUSE"); return 1; } if (p32_4 == 0x000000) p8_4 = 0; else if (p32_4 == 0xBBBBBB) p8_4 = 1; else if (p32_4 == 0x888888) p8_4 = 2; else if (p32_4 == 0x555555) p8_4 = 3; else { printf("ERROR: Illegal pixel 0x%08X found. Stopping!\n", p32_4); free(pixel_data); free(DataPtr); fclose(out); system("PAUSE"); return 1; } DataPtr[i] = (p8_1 << 6) | (p8_2 << 4) | (p8_3 << 2) | p8_4; } free(pixel_data); // The following mess is a direct 68k asm of ptcompactor.s found in // the ProTracker 1.3 source code archive. goto Main; JustCode: *a1++ = RLE_ID; // Output compacter code *a1++ = 0; // Output zero *a1++ = RLE_ID; // Output compacter code goto NextByte; // Do next byte Equal: d1 = d0; d4++; // Add one to equal-count if (d4 >= 255) // 255 or more? goto FlushBytes; // Yes, flush buffer goto NextByte; // Do next byte FlushBytes: if (d4 >= 3) // 4 or more goto FourOrMore; // Yes, output codes NotFour: *a1++ = (uint8_t)d1; // Output byte if (--d4 != -1) goto NotFour; // Loop... d4 = 0; // Zero count goto NextByte; // Another byte FourOrMore: *a1++ = RLE_ID; // Output compacter code *a1++ = (uint8_t)d4; // Output count *a1++ = (uint8_t)d1; // Output byte d4 = 0; // Zero count d0++; goto NextByte; // Do next byte Main: ToPtr = (uint8_t *)malloc(DataLen); a0 = DataPtr; // From ptr. a1 = ToPtr; // To ptr. d7 = DataLen; // Length d4 = 0; // Clear count EqLoop: d0 = *a0++; // Get a byte if (d0 == RLE_ID) // Same as compacter code? goto JustCode; // Output JustCode if (d7 == 1) goto endskip; if (d0 == *a0) // Same as previous byte? goto Equal; // Yes, it was equal endskip: if (d4 > 0) // Not equal, any equal buffered? goto FlushBytes; // Yes, output them *a1++ = (uint8_t)d0; // Output byte d4 = 0; NextByte: d7--; // Subtract 1 from length if (d7 > 0) goto EqLoop; // Loop until length = 0 if (d4 == 0) // Any buffered bytes? goto endok; // No, goto end if (d4 >= 3) // More than 4? goto FourOrMore2; // Yes, skip NotFour2: *a1++ = (uint8_t)d0; // Output byte if (--d4 != -1) goto NotFour2; // Loop... goto endok; // Goto end; FourOrMore2: *a1++ = RLE_ID; // Output compacter code *a1++ = (uint8_t)d4; // Output count *a1++ = (uint8_t)d0; // Output byte endok: free(DataPtr); CompLen = (uint32_t)a1 - (uint32_t)ToPtr; fprintf(out, "#include <stdint.h>\n\n"); fprintf(out, "// Final unpack length: %d\n", DataLen * 4); fprintf(out, "// Decoded length: %d (first four bytes of buffer)\n", DataLen); fprintf(out, "const uint8_t renameMe[%d] =\n{\n", CompLen + 4); fprintf(out, "\t0x%02X,0x%02X,0x%02X,0x%02X,", (DataLen & 0xFF000000) >> 24, (DataLen & 0x00FF0000) >> 16, (DataLen & 0x0000FF00) >> 8, DataLen & 0x000000FF); for (i = 4; i < CompLen+4; i++) { if (i == CompLen+3) fprintf(out, "0x%02X\n};\n", ToPtr[i-4]); else if ((i % OUTPUT_PAD_SIZE) == 0) fprintf(out, "\t0x%02X,", ToPtr[i-4]); else if ((i % OUTPUT_PAD_SIZE) == OUTPUT_PAD_SIZE-1) fprintf(out, "0x%02X,\n", ToPtr[i-4]); else fprintf(out, "0x%02X,", ToPtr[i-4]); } free(ToPtr); fclose(out); printf("Done successfully.\n"); return 0; }