/* Nga ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Copyright (c) 2008 - 2021, Charles Childers Copyright (c) 2009 - 2010, Luke Parrish Copyright (c) 2010, Marc Simpson Copyright (c) 2010, Jay Skeer Copyright (c) 2011, Kenneth Keating ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ */ #ifndef NUM_DEVICES #define NUM_DEVICES 0 #endif CELL load_image(char *imageFile) { FILE *fp; CELL imageSize; long fileLen; CELL i; if ((fp = fopen(imageFile, "rb")) != NULL) { /* Determine length (in cells) */ fseek(fp, 0, SEEK_END); fileLen = ftell(fp) / sizeof(CELL); if (fileLen > IMAGE_SIZE) { fclose(fp); printf("\nERROR (nga/ngaLoadImage): Image is larger than alloted space!\n"); exit(1); } rewind(fp); /* Read the file into memory */ imageSize = fread(&memory, sizeof(CELL), fileLen, fp); fclose(fp); } else { for (i = 0; i < ngaImageCells; i++) memory[i] = ngaImage[i]; imageSize = i; } return imageSize; } void prepare_vm() { cpu.ip = cpu.sp = cpu.rp = 0; for (cpu.ip = 0; cpu.ip < IMAGE_SIZE; cpu.ip++) memory[cpu.ip] = 0; /* NO - nop instruction */ for (cpu.ip = 0; cpu.ip < STACK_DEPTH; cpu.ip++) cpu.data[cpu.ip] = 0; for (cpu.ip = 0; cpu.ip < ADDRESSES; cpu.ip++) cpu.address[cpu.ip] = 0; } void inst_no() { } void inst_li() { cpu.sp++; cpu.ip++; TOS = memory[cpu.ip]; } void inst_du() { cpu.sp++; cpu.data[cpu.sp] = NOS; } void inst_dr() { cpu.data[cpu.sp] = 0; if (--cpu.sp < 0) cpu.ip = IMAGE_SIZE; } void inst_sw() { CELL a; a = TOS; TOS = NOS; NOS = a; } void inst_pu() { cpu.rp++; TORS = TOS; inst_dr(); } void inst_po() { cpu.sp++; TOS = TORS; cpu.rp--; } void inst_ju() { cpu.ip = TOS - 1; inst_dr(); } void inst_ca() { cpu.rp++; TORS = cpu.ip; cpu.ip = TOS - 1; inst_dr(); } void inst_cc() { CELL a, b; a = TOS; inst_dr(); /* Target */ b = TOS; inst_dr(); /* Flag */ if (b != 0) { cpu.rp++; TORS = cpu.ip; cpu.ip = a - 1; } } void inst_re() { cpu.ip = TORS; cpu.rp--; } void inst_eq() { NOS = (NOS == TOS) ? -1 : 0; inst_dr(); } void inst_ne() { NOS = (NOS != TOS) ? -1 : 0; inst_dr(); } void inst_lt() { NOS = (NOS < TOS) ? -1 : 0; inst_dr(); } void inst_gt() { NOS = (NOS > TOS) ? -1 : 0; inst_dr(); } void inst_fe() { #ifndef NOCHECKS if (TOS >= IMAGE_SIZE || TOS < -5) { cpu.ip = IMAGE_SIZE; printf("\nERROR (nga/inst_fe): Fetch beyond valid memory range\n"); exit(1); } else { #endif switch (TOS) { case -1: TOS = cpu.sp - 1; break; case -2: TOS = cpu.rp; break; case -3: TOS = IMAGE_SIZE; break; case -4: TOS = CELL_MIN; break; case -5: TOS = CELL_MAX; break; default: TOS = memory[TOS]; break; } #ifndef NOCHECKS } #endif } void inst_st() { #ifndef NOCHECKS if (TOS <= IMAGE_SIZE && TOS >= 0) { #endif memory[TOS] = NOS; inst_dr(); inst_dr(); #ifndef NOCHECKS } else { cpu.ip = IMAGE_SIZE; printf("\nERROR (nga/inst_st): Store beyond valid memory range\n"); exit(1); } #endif } void inst_ad() { NOS += TOS; inst_dr(); } void inst_su() { NOS -= TOS; inst_dr(); } void inst_mu() { NOS *= TOS; inst_dr(); } void inst_di() { CELL a, b; a = TOS; b = NOS; #ifndef NOCHECKS if (a == 0) { printf("\nERROR (nga/inst_di): Division by zero\n"); exit(1); } #endif TOS = b / a; NOS = b % a; } void inst_an() { NOS = TOS & NOS; inst_dr(); } void inst_or() { NOS = TOS | NOS; inst_dr(); } void inst_xo() { NOS = TOS ^ NOS; inst_dr(); } void inst_sh() { CELL y = TOS; CELL x = NOS; if (TOS < 0) NOS = NOS << (TOS * -1); else { if (x < 0 && y > 0) NOS = x >> y | ~(~0U >> y); else NOS = x >> y; } inst_dr(); } void inst_zr() { if (TOS == 0) { inst_dr(); cpu.ip = TORS; cpu.rp--; } } void inst_ha() { cpu.ip = IMAGE_SIZE; } void inst_ie() { cpu.sp++; TOS = NUM_DEVICES; } void inst_iq() { CELL Device = TOS; inst_dr(); IO_queryHandlers[Device](); } void inst_ii() { CELL Device = TOS; inst_dr(); IO_deviceHandlers[Device](); } Handler instructions[] = { inst_no, inst_li, inst_du, inst_dr, inst_sw, inst_pu, inst_po, inst_ju, inst_ca, inst_cc, inst_re, inst_eq, inst_ne, inst_lt, inst_gt, inst_fe, inst_st, inst_ad, inst_su, inst_mu, inst_di, inst_an, inst_or, inst_xo, inst_sh, inst_zr, inst_ha, inst_ie, inst_iq, inst_ii }; void process_opcode(CELL opcode) { #ifdef FAST switch (opcode) { case 0: break; case 1: inst_li(); break; case 2: inst_du(); break; case 3: inst_dr(); break; case 4: inst_sw(); break; case 5: inst_pu(); break; case 6: inst_po(); break; case 7: inst_ju(); break; case 8: inst_ca(); break; case 9: inst_cc(); break; case 10: inst_re(); break; case 11: inst_eq(); break; case 12: inst_ne(); break; case 13: inst_lt(); break; case 14: inst_gt(); break; case 15: inst_fe(); break; case 16: inst_st(); break; case 17: inst_ad(); break; case 18: inst_su(); break; case 19: inst_mu(); break; case 20: inst_di(); break; case 21: inst_an(); break; case 22: inst_or(); break; case 23: inst_xo(); break; case 24: inst_sh(); break; case 25: inst_zr(); break; case 26: inst_ha(); break; case 27: inst_ie(); break; case 28: inst_iq(); break; case 29: inst_ii(); break; default: break; } #else if (opcode != 0) instructions[opcode](); #endif } int validate_opcode_bundle(CELL opcode) { CELL raw = opcode; CELL current; int valid = -1; int i; for (i = 0; i < 4; i++) { current = raw & 0xFF; if (!(current >= 0 && current <= 29)) valid = 0; raw = raw >> 8; } return valid; } void process_opcode_bundle(CELL opcode) { CELL raw = opcode; int i; for (i = 0; i < 4; i++) { process_opcode(raw & 0xFF); raw = raw >> 8; } }