#include #include #include #include "qfcc.h" #include "scope.h" #include "qc-parse.h" extern function_t *current_func; static etype_t qc_types[] = { ev_void, // ex_label ev_void, // ex_block ev_void, // ex_expr ev_void, // ex_uexpr ev_void, // ex_def ev_void, // FIXME ex_int ev_float, // ex_float ev_string, // ex_string ev_vector, // ex_vector ev_void, // FIXME ex_quaternion }; static type_t *types[] = { &type_void, &type_string, &type_float, &type_vector, &type_entity, &type_field, &type_function, &type_pointer, }; static expr_type expr_types[] = { ex_label, // ev_void (ick) ex_string, // ev_string ex_float, // ev_float ex_vector, // ev_vector ex_label, // ev_entity (ick) ex_label, // ev_field (ick) ex_label, // ev_func (ick) ex_label, // ev_pointer (ick) }; static etype_t get_type (expr_t *e) { switch (e->type) { case ex_label: case ex_block: case ex_quaternion: //FIXME return ev_void; case ex_expr: case ex_uexpr: return e->e.expr.type->type; case ex_def: return e->e.def->type->type; case ex_int: //FIXME? e->type = ex_float; e->e.float_val = e->e.int_val; return ev_float; case ex_float: case ex_string: case ex_vector: //FIXME case ex_quaternion: return qc_types[e->type]; } return ev_void; } expr_t * error (expr_t *e, const char *fmt, ...) { va_list args; string_t file = s_file; int line = pr_source_line; va_start (args, fmt); if (e) { file = e->file; line = e->line; } fprintf (stderr, "%s:%d: ", strings + file, line); vfprintf (stderr, fmt, args); fputs ("\n", stderr); if (e) { e = new_expr (); e->type = ex_int; } va_end (args); pr_error_count++; return e; } void warning (expr_t *e, const char *fmt, ...) { va_list args; string_t file = s_file; int line = pr_source_line; if (options.warn_error) { options.warn_error = 0; // only want to do this once error (e, "warnings treated as errors"); } va_start (args, fmt); if (e) { file = e->file; line = e->line; } fprintf (stderr, "%s:%d: warning:", strings + file, line); vfprintf (stderr, fmt, args); fputs ("\n", stderr); va_end (args); } expr_t * new_expr (void) { expr_t *e = calloc (1, sizeof (expr_t)); e->line = pr_source_line; e->file = s_file; return e; } expr_t * new_label_expr (void) { static int label = 0; int lnum = ++label; const char *fname = current_func->def->name; expr_t *l = new_expr (); l->type = ex_label; l->e.label.name = malloc (1 + strlen (fname) + 1 + ceil (log10 (lnum)) + 1); sprintf (l->e.label.name, "$%s_%d", fname, lnum); return l; } expr_t * new_block_expr (void) { expr_t *b = new_expr (); b->type = ex_block; b->e.block.head = 0; b->e.block.tail = &b->e.block.head; return b; } expr_t * new_binary_expr (int op, expr_t *e1, expr_t *e2) { expr_t *e = new_expr (); e->type = ex_expr; e->e.expr.op = op; e->e.expr.e1 = e1; e->e.expr.e2 = e2; return e; } expr_t * new_unary_expr (int op, expr_t *e1) { expr_t *e = new_expr (); e->type = ex_uexpr; e->e.expr.op = op; e->e.expr.e1 = e1; return e; } expr_t * append_expr (expr_t *block, expr_t *e) { if (block->type != ex_block) abort (); if (!e) return block; *block->e.block.tail = e; block->e.block.tail = &e->next; return block; } void print_expr (expr_t *e) { printf (" "); if (!e) { printf ("(nil)"); return; } switch (e->type) { case ex_label: printf ("%s", e->e.label.name); break; case ex_block: printf ("{\n"); for (e = e->e.block.head; e; e = e->next) { print_expr (e); puts(""); } printf ("}"); break; case ex_expr: print_expr (e->e.expr.e1); if (e->e.expr.op == 'c') { expr_t *p = e->e.expr.e2; printf ("("); while (p) { print_expr (p); if (p->next) printf (","); p = p->next; } printf (")"); } else { print_expr (e->e.expr.e2); if (isprint (e->e.expr.op)) { printf (" %c", e->e.expr.op); } else { printf (" %d", e->e.expr.op); } } break; case ex_uexpr: print_expr (e->e.expr.e1); if (isprint (e->e.expr.op)) { printf (" u%c", e->e.expr.op); } else { printf (" u%d", e->e.expr.op); } break; case ex_def: printf ("%s", e->e.def->name); break; case ex_int: printf ("%d", e->e.int_val); break; case ex_float: printf ("%g", e->e.float_val); break; case ex_string: printf ("\"%s\"", e->e.string_val); break; case ex_vector: printf ("'%g", e->e.vector_val[0]); printf ( " %g", e->e.vector_val[1]); printf ( " %g'", e->e.vector_val[2]); break; case ex_quaternion: printf ("'%g", e->e.quaternion_val[0]); printf (" %g", e->e.quaternion_val[1]); printf (" %g", e->e.quaternion_val[2]); printf (" %g'", e->e.quaternion_val[3]); break; } } static expr_t * do_op_string (int op, expr_t *e1, expr_t *e2) { int len; char *buf; char *s1, *s2; s1 = e1->e.string_val; s2 = e2->e.string_val; switch (op) { case '+': len = strlen (s1) + strlen (s2) + 1; buf = malloc (len); strcpy (buf, s1); strcat (buf, s2); e1->e.string_val = buf; break; case LT: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) < 0; break; case GT: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) > 0; break; case LE: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) <= 0; break; case GE: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) >= 0; break; case EQ: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) == 0; break; case NE: e1->type = ex_int; e1->e.int_val = strcmp (s1, s2) != 0; break; default: return error (e1, "invalid operand for string"); } return e1; } static expr_t * do_op_float (int op, expr_t *e1, expr_t *e2) { float f1, f2; f1 = e1->e.float_val; f2 = e2->e.float_val; switch (op) { case '+': e1->e.float_val += f2; break; case '-': e1->e.float_val -= f2; break; case '*': e1->e.float_val *= f2; break; case '/': e1->e.float_val /= f2; break; case '&': e1->e.float_val = (int)f1 & (int)f2; break; case '|': e1->e.float_val += (int)f1 | (int)f2; break; case AND: e1->e.float_val = f1 && f2; break; case OR: e1->e.float_val += f1 || f2; break; case LT: e1->type = ex_int; e1->e.int_val = f1 < f2; break; case GT: e1->type = ex_int; e1->e.int_val = f1 > f2; break; case LE: e1->type = ex_int; e1->e.int_val = f1 <= f2; break; case GE: e1->type = ex_int; e1->e.int_val = f1 >= f2; break; case EQ: e1->type = ex_int; e1->e.int_val = f1 == f2; break; case NE: e1->type = ex_int; e1->e.int_val = f1 != f2; break; default: return error (e1, "invalid operand for string"); } return e1; } static expr_t * do_op_vector (int op, expr_t *e1, expr_t *e2) { float *v1, *v2; v1 = e1->e.vector_val; v2 = e2->e.vector_val; switch (op) { case '+': VectorAdd (v1, v2, v1); break; case '-': VectorSubtract (v1, v2, v1); break; case '*': e1->type = ex_float; e1->e.float_val = DotProduct (v1, v2); break; case EQ: e1->type = ex_int; e1->e.int_val = (v1[0] == v2[0]) && (v1[1] == v2[1]) && (v1[2] == v2[2]); break; case NE: e1->type = ex_int; e1->e.int_val = (v1[0] == v2[0]) || (v1[1] != v2[1]) || (v1[2] != v2[2]); break; default: return error (e1, "invalid operand for string"); } return e1; } static expr_t * do_op_huh (int op, expr_t *e1, expr_t *e2) { return error (e1, "funny constant"); } static expr_t *(*do_op[]) (int op, expr_t *e1, expr_t *e2) = { do_op_huh, do_op_string, do_op_float, do_op_vector, do_op_huh, do_op_huh, do_op_huh, do_op_huh, }; static expr_t * binary_const (int op, expr_t *e1, expr_t *e2) { etype_t t1, t2; //expr_t *e; t1 = get_type (e1); t2 = get_type (e2); if (t1 == t2) { return do_op[t1](op, e1, e2); } else { return error (e1, "type missmatch for %d (%c)", op, (op > ' ' && op < 127) ? op : ' '); } } static expr_t * field_expr (expr_t *e1, expr_t *e2) { etype_t t1, t2; expr_t *e; t1 = get_type (e1); t2 = get_type (e2); if (t1 != ev_entity || t2 != ev_field) { return error (e1, "type missmatch for ."); } e = new_binary_expr ('.', e1, e2); e->e.expr.type = (e2->type == ex_def) ? e2->e.def->type->aux_type : e2->e.expr.type; return e; } expr_t * binary_expr (int op, expr_t *e1, expr_t *e2) { etype_t t1, t2; if (op == '.') return field_expr (e1, e2); if (e1->type >= ex_int && e2->type >= ex_int) return binary_const (op, e1, e2); if ((op == '&' || op == '|') && e1->type == ex_uexpr && e1->e.expr.op == '!' && !e1->paren) { warning (e1, "ambiguous logic. Suggest explicit parentheses with expressions involving ! and %c", op); } t1 = get_type (e1); t2 = get_type (e2); if (t1 == ev_void || t2 == ev_void) { error (e1, "internal error"); abort (); } if (t1 == t2) { expr_t *e = new_binary_expr (op, e1, e2); if ((op >= OR && op <= GT) || (op == '*' && t1 == ev_vector)) e->e.expr.type = &type_float; else e->e.expr.type = types[t1]; if (op == '=' && e1->type == ex_expr && e1->e.expr.op == '.') { e1->e.expr.type = &type_pointer; } return e; } else { switch (t1) { case ev_float: if (t2 == ev_vector) { expr_t *e = new_binary_expr (op, e1, e2); e->e.expr.type = &type_vector; return e; } else { goto type_mismatch; } case ev_vector: if (t2 == ev_float) { expr_t *e = new_binary_expr (op, e1, e2); e->e.expr.type = &type_vector; return e; } else { goto type_mismatch; } case ev_field: if (e1->e.expr.type->aux_type->type == t2) { expr_t *e = new_binary_expr (op, e1, e2); e->e.expr.type = e->e.expr.type->aux_type; return e; } else { goto type_mismatch; } default: type_mismatch: return error (e1, "type missmatch %d %d", t1, t2); } } } expr_t * unary_expr (int op, expr_t *e) { switch (op) { case '-': switch (e->type) { case ex_label: case ex_block: abort (); case ex_uexpr: if (e->e.expr.op == '-') return e->e.expr.e1; case ex_expr: case ex_def: { expr_t *n = new_unary_expr (op, e); n->e.expr.type = (e->type == ex_def) ? e->e.def->type : e->e.expr.type; return n; } case ex_int: e->e.int_val *= -1; return e; case ex_float: e->e.float_val *= -1; return e; case ex_string: return error (e, "invalid type for unary -"); case ex_vector: e->e.vector_val[0] *= -1; e->e.vector_val[1] *= -1; e->e.vector_val[2] *= -1; return e; case ex_quaternion: e->e.quaternion_val[0] *= -1; e->e.quaternion_val[1] *= -1; e->e.quaternion_val[2] *= -1; e->e.quaternion_val[3] *= -1; return e; } break; case '!': switch (e->type) { case ex_label: case ex_block: abort (); case ex_uexpr: case ex_expr: case ex_def: { expr_t *n = new_unary_expr (op, e); n->e.expr.type = &type_float; return n; } case ex_int: e->e.int_val = !e->e.int_val; return e; case ex_float: e->e.int_val = !e->e.float_val; e->type = ex_int; return e; case ex_string: e->e.int_val = !e->e.string_val || !e->e.string_val[0]; e->type = ex_int; return e; case ex_vector: e->e.int_val = !e->e.vector_val[0] && !e->e.vector_val[1] && !e->e.vector_val[2]; e->type = ex_int; return e; case ex_quaternion: e->e.int_val = !e->e.quaternion_val[0] && !e->e.quaternion_val[1] && !e->e.quaternion_val[2] && !e->e.quaternion_val[3]; e->type = ex_int; return e; } break; default: abort (); } error (e, "internal error"); abort (); } expr_t * function_expr (expr_t *e1, expr_t *e2) { etype_t t1; expr_t *e; int parm_count = 0; type_t *ftype; t1 = get_type (e1); if (t1 != ev_func) { if (e1->type == ex_def) return error (e1, "Called object \"%s\" is not a function", e1->e.def->name); else return error (e1, "Called object is not a function"); } ftype = e1->type == ex_def ? e1->e.def->type : e1->e.expr.type; for (e = e2; e; e = e->next) parm_count++; if (parm_count > 8) { return error (e1, "more than 8 paramters"); } if (ftype->num_parms != -1) { if (parm_count > ftype->num_parms) { return error (e1, "too many arguments"); } else if (parm_count < ftype->num_parms) { return error (e1, "too few arguments"); } } e = new_binary_expr ('c', e1, e2); e->e.expr.type = ftype->aux_type; return e; } def_t * emit_statement (opcode_t *op, def_t *var_a, def_t *var_b, def_t *var_c) { dstatement_t *statement; def_t *ret; statement = &statements[numstatements]; numstatements++; statement_linenums[statement - statements] = pr_source_line; statement->op = op->opcode; statement->a = var_a ? var_a->ofs : 0; statement->b = var_b ? var_b->ofs : 0; if (op->type_c == &def_void || op->right_associative) { // ifs, gotos, and assignments don't need vars allocated var_c = NULL; statement->c = 0; ret = var_a; } else { // allocate result space if (!var_c) var_c = PR_GetTempDef (op->type_c->type, pr_scope); statement->c = var_c->ofs; ret = var_c; } PR_AddStatementRef (var_a, statement, 0); PR_AddStatementRef (var_b, statement, 1); PR_AddStatementRef (var_c, statement, 2); if (op->right_associative) return var_a; return var_c; } def_t *emit_sub_expr (expr_t *e, def_t *dest); void emit_branch (opcode_t *op, expr_t *e, expr_t *l) { dstatement_t *st; statref_t *ref; def_t *def = 0; if (e) def = emit_sub_expr (e, 0); st = &statements[numstatements]; emit_statement (op, def, 0, 0); if (l->e.label.statement) { if (op == op_goto) st->a = l->e.label.statement - st; else st->b = l->e.label.statement - st; } else { ref = PR_NewStatref (st, op != op_goto); ref->next = l->e.label.refs; l->e.label.refs = ref; } } def_t * emit_function_call (expr_t *e, def_t *dest) { def_t *func = emit_sub_expr (e->e.expr.e1, 0); def_t parm; def_t *arg; expr_t *earg; opcode_t *op; int count = 0, ind; for (earg = e->e.expr.e2; earg; earg = earg->next) count++; ind = count; for (earg = e->e.expr.e2; earg; earg = earg->next) { ind--; parm = def_parms[ind]; parm.type = types[get_type (earg)]; arg = emit_sub_expr (earg, &parm); if (earg->type != ex_expr) { op = PR_Opcode_Find ("=", 5, arg, &parm, &parm); emit_statement (op, arg, &parm, 0); } } op = PR_Opcode_Find (va ("", count), -1, &def_function, &def_void, &def_void); emit_statement (op, func, 0, 0); def_ret.type = func->type->aux_type; if (dest) { op = PR_Opcode_Find ("=", 5, dest, &def_ret, &def_ret); emit_statement (op, &def_ret, dest, 0); return dest; } else { return &def_ret; } } def_t * emit_assign_expr (expr_t *e) { def_t *def_a, *def_b; opcode_t *op; expr_t *e1 = e->e.expr.e1; expr_t *e2 = e->e.expr.e2; def_a = emit_sub_expr (e1, 0); if (def_a->type == &type_pointer) { def_b = emit_sub_expr (e2, 0); op = PR_Opcode_Find ("=", 5, def_a, def_b, def_b); emit_statement (op, def_b, def_a, 0); } else { if (def_a->initialized) { if (options.cow) { int size = type_size [def_a->type->type]; int ofs = PR_NewLocation (def_a->type); memcpy (pr_globals + ofs, pr_globals + def_a->ofs, size); def_a->ofs = ofs; def_a->initialized = 0; } else { error (e1, "assignment to constant %s", def_a->name); } } if (e2->type == ex_expr) { def_b = emit_sub_expr (e2, def_a); } else { def_b = emit_sub_expr (e2, 0); op = PR_Opcode_Find ("=", 5, def_a, def_b, def_b); emit_statement (op, def_b, def_a, 0); } } return def_b; } def_t * emit_sub_expr (expr_t *e, def_t *dest) { opcode_t *op; char *operator; def_t *def_a, *def_b; int priority; switch (e->type) { default: case ex_label: case ex_block: abort (); case ex_expr: if (e->e.expr.op == 'c') return emit_function_call (e, dest); if (e->e.expr.op == '=') return emit_assign_expr (e); def_a = emit_sub_expr (e->e.expr.e1, 0); def_b = emit_sub_expr (e->e.expr.e2, 0); switch (e->e.expr.op) { case AND: operator = "&&"; priority = 6; break; case OR: operator = "||"; priority = 6; break; case EQ: operator = "=="; priority = 4; break; case NE: operator = "!="; priority = 4; break; case LE: operator = "<="; priority = 4; break; case GE: operator = ">="; priority = 4; break; case LT: operator = "<"; priority = 4; break; case GT: operator = ">"; priority = 4; break; case '+': operator = "+"; priority = 3; break; case '-': operator = "-"; priority = 3; break; case '*': operator = "*"; priority = 2; break; case '/': operator = "/"; priority = 2; break; case '&': operator = "&"; priority = 2; break; case '|': operator = "|"; priority = 2; break; case '.': operator = "."; priority = 1; break; default: abort (); } if (!dest) dest = PR_GetTempDef (e->e.expr.type, pr_scope); op = PR_Opcode_Find (operator, priority, def_a, def_b, dest); return emit_statement (op, def_a, def_b, dest); case ex_uexpr: if (e->e.expr.op == '!') { operator = "!"; priority = -1; def_a = emit_sub_expr (e->e.expr.e1, 0); def_b = &def_void; } else if (e->e.expr.op == '-') { static expr_t zero; zero.type = expr_types[get_type (e->e.expr.e1)]; operator = "-"; priority = 3; def_a = PR_ReuseConstant (&zero, 0); def_b = emit_sub_expr (e->e.expr.e1, 0); } else { abort (); } op = PR_Opcode_Find (operator, priority, def_a, def_b, dest); return emit_statement (op, def_a, def_b, dest); case ex_def: return e->e.def; case ex_int: case ex_float: case ex_string: case ex_vector: case ex_quaternion: return PR_ReuseConstant (e, 0); } } void emit_expr (expr_t *e) { def_t *def; def_t *def_a; def_t *def_b; statref_t *ref; label_t *label; //opcode_t *op; switch (e->type) { case ex_label: label = &e->e.label; label->statement = &statements[numstatements]; for (ref = label->refs; ref; ref = ref->next) { switch (ref->field) { case 0: ref->statement->a = label->statement - ref->statement; break; case 1: ref->statement->b = label->statement - ref->statement; break; case 2: ref->statement->c = label->statement - ref->statement; break; default: abort(); } } break; case ex_block: for (e = e->e.block.head; e; e = e->next) emit_expr (e); break; case ex_expr: switch (e->e.expr.op) { case '=': emit_assign_expr (e); break; case 'n': emit_branch (op_ifnot, e->e.expr.e1, e->e.expr.e2); break; case 'i': emit_branch (op_if, e->e.expr.e1, e->e.expr.e2); break; case 'c': emit_function_call (e, 0); break; case 's': def_a = emit_sub_expr (e->e.expr.e1, 0); def_b = emit_sub_expr (e->e.expr.e2, 0); emit_statement (op_state, def_a, def_b, 0); break; default: warning (e, "unused expression ignored"); break; } break; case ex_uexpr: switch (e->e.expr.op) { case 'r': def = 0; if (e->e.expr.e1) def = emit_sub_expr (e->e.expr.e1, 0); PR_Statement (op_return, def, 0); break; case 'g': emit_branch (op_goto, 0, e->e.expr.e1); break; default: warning (e, "unused expression ignored"); emit_expr (e->e.expr.e1); break; } break; case ex_def: case ex_int: case ex_float: case ex_string: case ex_vector: case ex_quaternion: warning (e, "unused expression ignored"); break; } PR_FreeTempDefs (); }