ref: 0105779789909e2daad5aa09450dd3101aa5e723
dir: /src/asm/opt.c/
#include <ctype.h> #include <errno.h> #include <stdbool.h> #include <stdint.h> #include <stdio.h> #include <stdlib.h> #include <string.h> #include "asm/fstack.h" #include "asm/lexer.h" #include "asm/main.h" #include "asm/section.h" #include "asm/warning.h" struct OptStackEntry { char binary[2]; char gbgfx[4]; int32_t fillByte; bool haltnop; bool warnOnHaltNop; bool optimizeLoads; bool warnOnLdOpt; bool warningsAreErrors; size_t maxRecursionDepth; // Don't be confused: we use the size of the **global variable** `warningStates`! enum WarningState warningStates[sizeof(warningStates)]; struct OptStackEntry *next; }; static struct OptStackEntry *stack = NULL; void opt_B(char const chars[2]) { lexer_SetBinDigits(chars); } void opt_G(char const chars[4]) { lexer_SetGfxDigits(chars); } void opt_P(uint8_t fill) { fillByte = fill; } void opt_R(size_t newDepth) { fstk_NewRecursionDepth(newDepth); lexer_CheckRecursionDepth(); } void opt_H(bool warn) { warnOnHaltNop = warn; } void opt_h(bool halt) { haltnop = halt; } void opt_L(bool optimize) { optimizeLoads = optimize; } void opt_l(bool warn) { warnOnLdOpt = warn; } void opt_W(char *flag) { processWarningFlag(flag); } void opt_Parse(char *s) { switch (s[0]) { case 'b': if (strlen(&s[1]) == 2) opt_B(&s[1]); else error("Must specify exactly 2 characters for option 'b'\n"); break; case 'g': if (strlen(&s[1]) == 4) opt_G(&s[1]); else error("Must specify exactly 4 characters for option 'g'\n"); break; case 'p': if (strlen(&s[1]) <= 2) { int result; unsigned int fillchar; result = sscanf(&s[1], "%x", &fillchar); if (result != EOF && result != 1) error("Invalid argument for option 'p'\n"); else opt_P(fillchar); } else { error("Invalid argument for option 'p'\n"); } break; case 'r': { ++s; // Skip 'r' while (isblank(*s)) ++s; // Skip leading whitespace if (s[0] == '\0') { error("Missing argument to option 'r'\n"); break; } char *endptr; unsigned long newDepth = strtoul(s, &endptr, 10); if (*endptr != '\0') { error("Invalid argument to option 'r' (\"%s\")\n", s); } else if (errno == ERANGE) { error("Argument to 'r' is out of range (\"%s\")\n", s); } else { opt_R(newDepth); } break; } case 'H': if (s[1] == '\0') opt_H(false); else error("Option 'H' does not take an argument\n"); break; case 'h': if (s[1] == '\0') opt_h(false); else error("Option 'h' does not take an argument\n"); break; case 'L': if (s[1] == '\0') opt_L(false); else error("Option 'L' does not take an argument\n"); break; case 'l': if (s[1] == '\0') opt_l(false); else error("Option 'l' does not take an argument\n"); break; case 'W': if (strlen(&s[1]) > 0) opt_W(&s[1]); else error("Must specify an argument for option 'W'\n"); break; case '!': // negates flag options that do not take an argument switch (s[1]) { case 'h': if (s[2] == '\0') opt_h(true); else error("Option '!h' does not take an argument\n"); break; case 'L': if (s[2] == '\0') opt_L(true); else error("Option '!L' does not take an argument\n"); break; default: error("Unknown option '!%c'\n", s[1]); break; } break; default: error("Unknown option '%c'\n", s[0]); break; } } void opt_Push(void) { struct OptStackEntry *entry = malloc(sizeof(*entry)); if (entry == NULL) fatalerror("Failed to alloc option stack entry: %s\n", strerror(errno)); // Both of these pulled from lexer.h entry->binary[0] = binDigits[0]; entry->binary[1] = binDigits[1]; entry->gbgfx[0] = gfxDigits[0]; entry->gbgfx[1] = gfxDigits[1]; entry->gbgfx[2] = gfxDigits[2]; entry->gbgfx[3] = gfxDigits[3]; entry->fillByte = fillByte; // Pulled from section.h entry->haltnop = haltnop; // Pulled from main.h entry->warnOnHaltNop = warnOnHaltNop; entry->optimizeLoads = optimizeLoads; // Pulled from main.h entry->warnOnLdOpt = warnOnLdOpt; // Both of these pulled from warning.h entry->warningsAreErrors = warningsAreErrors; memcpy(entry->warningStates, warningStates, sizeof(warningStates)); entry->next = stack; stack = entry; } void opt_Pop(void) { if (stack == NULL) { error("No entries in the option stack\n"); return; } struct OptStackEntry *entry = stack; opt_B(entry->binary); opt_G(entry->gbgfx); opt_P(entry->fillByte); opt_H(entry->warnOnHaltNop); opt_h(entry->haltnop); opt_L(entry->optimizeLoads); opt_l(entry->warnOnLdOpt); // opt_W does not apply a whole warning state; it processes one flag string warningsAreErrors = entry->warningsAreErrors; memcpy(warningStates, entry->warningStates, sizeof(warningStates)); stack = entry->next; free(entry); }