#include #include "../../mem/heap.h" #include "../gfx/gfxutils.h" #include "../emmc/emmc.h" #include "../../utils/types.h" #include "../../libs/fatfs/ff.h" #include "../../utils/sprintf.h" #include "../../utils/btn.h" #include "../../gfx/gfx.h" #include "../../utils/util.h" #include "../../storage/emummc.h" #include "parser.h" #include "../common/common.h" #include "../fs/fsactions.h" #include "functions.h" #include "variables.h" #include "../fs/fsreader.h" #include "../utils/utils.h" u32 countchars(char* in, char target) { u32 len = strlen(in); u32 count = 0; for (u32 i = 0; i < len; i++) { if (in[i] == '"'){ i++; while (in[i] != '"'){ i++; if (i >= len) return -1; } } if (in[i] == target) count++; } return count; } char **argv = NULL; u32 argc; u32 splitargs(char* in) { // arg like '5, "6", @arg7' u32 i, current = 0, count = 1, len = strlen(in), curcount = 0; if ((count += countchars(in, ',')) < 0){ return 0; } /* if (argv != NULL) { for (i = 0; argv[i] != NULL; i++) free(argv[i]); free(argv); } */ argv = calloc(count + 1, sizeof(char*)); for (i = 0; i < count; i++) argv[i] = calloc(96, sizeof(char)); for (i = 0; i < len && curcount < count; i++) { if (in[i] == ',') { curcount++; current = 0; } else if (in[i] == '@' || in[i] == '$') { while (strrchr(", )", in[i]) == NULL && i < len) { argv[curcount][current++] = in[i++]; } i--; } //else if ((in[i] >= '0' && in[i] <= '9') || (in[i] >= '<' && in[i] <= '>') || in[i] == '+' || in[i] == '-' || in[i] == '*' || in[i] == '/') else if (strrchr("0123456789<=>+-*/", in[i]) != NULL) argv[curcount][current++] = in[i]; else if (in[i] == '"') { i++; while (in[i] != '"') { argv[curcount][current++] = in[i++]; } } } return count; } FIL scriptin; UINT endByte = 0; int forceExit = false; char currentchar = 0; char getnextchar(){ f_read(&scriptin, ¤tchar, sizeof(char), &endByte); if (sizeof(char) != endByte) forceExit = true; //gfx_printf("|%c|", currentchar); return currentchar; } void getfollowingchar(char end){ while (currentchar != end && !f_eof(&scriptin)){ if (currentchar == '"'){ while (getnextchar() != '"' && !f_eof(&scriptin)); } getnextchar(); } } void getnextvalidchar(){ while ((!((currentchar >= '?' && currentchar <= 'Z') || (currentchar >= 'a' && currentchar <= 'z') || currentchar == '#') && !f_eof(&scriptin)) /*|| currentchar == ';' */) getnextchar(); } char *makestr(u32 size, char ignore){ char *str; u32 count = 0; str = calloc(size + 1, sizeof(char)); for (u32 i = 0; i < size; i++){ getnextchar(); if (ignore != 0 && ignore == currentchar) continue; str[count++] = currentchar; } return str; } char *readtilchar(char end, char ignore){ FSIZE_t offset, size; offset = f_tell(&scriptin); getfollowingchar(end); size = f_tell(&scriptin) - offset; if (size <= 0) return NULL; f_lseek(&scriptin, offset - 1); return makestr((u32)size, ignore); } char *funcbuff = NULL; void functionparser(){ char *unsplitargs; /* if (funcbuff != NULL) free(funcbuff); */ funcbuff = readtilchar('(', ' '); getfollowingchar('('); getnextchar(); unsplitargs = readtilchar(')', 0); if (unsplitargs != NULL){ argc = splitargs(unsplitargs); getnextchar(); } else { argc = 0; } getnextchar(); free(unsplitargs); } char *gettargetvar(){ char *variable = NULL; variable = readtilchar('=', ' '); getfollowingchar('='); getnextchar(); return variable; } void mainparser(){ char *variable = NULL; int res, out = 0; getnextvalidchar(); if (f_eof(&scriptin)) return; if (currentchar == '#'){ getfollowingchar('\n'); return; } if (currentchar == '@'){ variable = gettargetvar(); getnextvalidchar(); } /* if (currentchar == '?'){ char *jumpname; jumpname = readtilchar(';', ' '); getnextchar(); str_jmp_add(jumpname, f_tell(&scriptin)); getfollowingchar('\n'); return; } */ functionparser(); res = run_function(funcbuff, &out); if (res < 0){ printerrors = true; //gfx_printf("%s|%s|%d", funcbuff, argv[0], argc); //btn_wait(); gfx_errDisplay("mainparser", ERR_PARSE_FAIL, f_tell(&scriptin)); forceExit = true; //gfx_printf("Func: %s\nArg1: %s\n", funcbuff, argv[0]); } else { str_int_add("@RESULT", out); if (variable != NULL) str_int_add(variable, out); } //gfx_printf("\nGoing to next func %c\n", currentchar); if (funcbuff != NULL){ free(funcbuff); funcbuff = NULL; } if (argv != NULL) { for (int i = 0; argv[i] != NULL; i++) free(argv[i]); free(argv); argv = NULL; } if (variable != NULL){ free(variable); } } void skipbrackets(){ u32 bracketcounter = 0; getfollowingchar('{'); getnextchar(); while ((currentchar != '}' || bracketcounter != 0) && !f_eof(&scriptin)){ if (currentchar == '{') bracketcounter++; else if (currentchar == '}') bracketcounter--; getnextchar(); } } extern u32 currentcolor; extern char *currentpath; void runScript(char *path){ int res; char *path_local = NULL; forceExit = false; currentchar = 0; currentcolor = COLOR_WHITE; gfx_clearscreen(); utils_copystring(path, &path_local); res = f_open(&scriptin, path, FA_READ | FA_OPEN_EXISTING); if (res != FR_OK){ gfx_errDisplay("ParseScript", res, 1); return; } printerrors = false; //add builtin vars str_int_add("@EMUMMC", emu_cfg.enabled); str_int_add("@RESULT", 0); str_str_add("$CURRENTPATH", currentpath); //str_int_printall(); while (!f_eof(&scriptin) && !forceExit){ mainparser(); } printerrors = true; //str_int_printall(); f_close(&scriptin); str_int_clear(); //str_jmp_clear(); str_str_clear(); free(path_local); //btn_wait(); }