3 # This script generates the C code which creates the irop's and
4 # their coresponding node constructors for all operations in a given spec
5 # so they can be used as normal firm nodes.
12 my $specfile = $ARGV[0];
13 my $target_dir = $ARGV[1];
26 unless ($return = do $specfile) {
27 warn "couldn't parse $specfile: $@" if $@;
28 warn "couldn't do $specfile: $!" unless defined $return;
29 warn "couldn't run $specfile" unless $return;
33 my $target_c = $target_dir."/gen_".$arch."_new_nodes.c.inl";
34 my $target_h = $target_dir."/gen_".$arch."_new_nodes.h";
36 #print Dumper(%nodes);
38 # create c code file from specs
40 my @obst_opvar; # stack for the "ir_op *op_<arch>_<op-name> = NULL;" statements
41 my @obst_get_opvar; # stack for the get_op_<arch>_<op-name>() functions
42 my @obst_constructor; # stack for node constructor functions
43 my @obst_new_irop; # stack for the new_ir_op calls
44 my @obst_header; # stack for function prototypes
45 my @obst_is_archirn; # stack for the is_$arch_irn() function
46 my @obst_cmp_attr; # stack for the compare attribute functions
51 push(@obst_header, "void ".$arch."_create_opcodes(void);\n");
53 foreach my $op (keys(%nodes)) {
54 my %n = %{ $nodes{"$op"} };
60 push(@obst_opvar, "ir_op *op_$op = NULL;\n");
61 push(@obst_get_opvar, "ir_op *get_op_$op(void) { return op_$op; }\n");
62 push(@obst_get_opvar, "int is_$op(const ir_node *n) { return get_irn_op(n) == op_$op; }\n\n");
64 push(@obst_is_archirn, "is_$op(node)");
66 push(@obst_header, "int is_$op(const ir_node *n);\n");
68 $n{"comment"} = "construct $op" if(!exists($n{"comment"}));
69 $n{"comment"} =~ s/^"|"$//g; # remove "
70 $n{"comment"} = "/* ".$n{"comment"}." */\n";
71 push(@obst_constructor, $n{"comment"});
74 # create compare attribute function if needed
75 if (exists($n{"cmp_attr"})) {
76 push(@obst_cmp_attr, "static int cmp_attr_$op(ir_node *a, ir_node *b) {\n");
77 push(@obst_cmp_attr, " asmop_attr *attr_a = get_ia32_attr(a);\n");
78 push(@obst_cmp_attr, " asmop_attr *attr_b = get_ia32_attr(b);\n");
79 push(@obst_cmp_attr, $n{"cmp_attr"});
80 push(@obst_cmp_attr, "}\n\n");
85 # create constructor head
86 my $complete_args = "";
90 $temp = "ir_node *new_rd_$op(dbg_info *db, ir_graph *irg, ir_node *block";
91 if (!exists($n{"args"}) || $n{"args"} eq "DEFAULT") { # default args
92 if ($n{"arity"} !~ /^[0-3]$/) {
93 print "DEFAULT args require arity 0,1,2 or 3! Ignoring op $orig_op!\n";
96 for (my $i = 1; $i <= $n{"arity"}; $i++) {
97 $complete_args .= ", ir_node *op".$i;
98 $arg_names .= ", op".$i;
100 $complete_args .= ", ir_mode *mode";
101 $arg_names .= ", mode";
103 else { # user defined args
104 for my $href (@{ $n{"args"} }) {
105 $href->{"type"} .= " " if ($href->{"type"} !~ / [*]?$/); # put a space between name and type if there is none at the end
106 $complete_args .= ", ".$href->{"type"}.$href->{"name"};
107 $arg_names .= ", ".$href->{"name"};
110 $complete_args = substr($complete_args, 2);
111 $temp .= ", $complete_args)";
112 push(@obst_constructor, $temp." {\n");
113 push(@obst_header, $temp.";\n");
115 # emit constructor code
116 if (!exists($n{"rd_constructor"}) || $n{"rd_constructor"} eq "DEFAULT") { # default constructor
117 if ($n{"arity"} !~ /^[0-3]$/) {
118 print "DEFAULT rd_constructor requires arity 0,1,2 or 3! Ignoring op $orig_op!\n";
121 $temp = " asmop_attr *attr;\n";
122 $temp .= " ir_node *res;\n";
123 $temp .= " ir_node *in[$arity];\n" if ($arity > 0);
125 $temp .= " if (!op_$op) {\n";
126 $temp .= " assert(0);\n";
127 $temp .= " return NULL;\n";
129 for (my $i = 1; $i <= $arity; $i++) {
130 $temp .= " in[".($i - 1)."] = op".$i.";\n";
132 $temp .= " res = new_ir_node(db, irg, block, op_$op, mode, $arity, ".($arity > 0 ? "in" : "NULL").");\n";
133 $temp .= " set_ia32_pncode(res, -1);\n";
134 $temp .= " res = optimize_node(res);\n";
135 $temp .= " irn_vrfy_irg(res, irg);\n\n";
138 $temp .= " attr = get_ia32_attr(res);\n\n";
139 $temp .= " attr->flags = 0; /* clear flags */\n";
140 if (!exists($n{"spill"}) || $n{"spill"} == 1) {
141 $temp .= " attr->flags |= arch_irn_flags_spillable; /* op is spillable */\n";
143 if (exists($n{"remat"}) && $n{"remat"} == 1) {
144 $temp .= " attr->flags |= arch_irn_flags_rematerializable; /* op can be easily recalulated */\n";
147 # allocate memory and set pointer to register requirements
148 if (exists($n{"reg_req"})) {
149 my %req = %{ $n{"reg_req"} };
153 @in = @{ $req{"in"} } if (exists($req{"in"}));
155 @out = @{ $req{"out"} } if exists(($req{"out"}));
158 $temp .= "\n /* allocate memory for IN register requirements and assigned registers */\n";
159 $temp .= " attr->in_req = calloc(".($#in + 1).", sizeof(arch_register_req_t *)); /* space for in requirements */\n";
160 for ($idx = 0; $idx <= $#in; $idx++) {
161 $temp .= " attr->in_req[$idx] = ".$op."_reg_req_in_".$idx.";\n";
166 $temp .= "\n /* allocate memory for OUT register requirements and assigned registers */\n";
167 $temp .= " attr->out_req = calloc(".($#out + 1).", sizeof(arch_register_req_t *)); /* space for out requirements */\n";
168 $temp .= " attr->slots = calloc(".($#out + 1).", sizeof(arch_register_t *)); /* space for assigned registers */\n";
169 for ($idx = 0; $idx <= $#out; $idx++) {
170 $temp .= " attr->out_req[$idx] = ".$op."_reg_req_out_".$idx.";\n";
172 $temp .= " attr->n_res = ".($#out + 1).";\n";
175 $temp .= " attr->n_res = 0;\n";
179 $temp .= "\n return res;\n";
181 push(@obst_constructor, $temp);
183 else { # user defined constructor
184 push(@obst_constructor, $n{"rd_constructor"});
187 # close constructor function
188 push(@obst_constructor, "}\n\n");
190 # set default values for state and flags if not given
191 $n{"state"} = "pinned" if (! exists($n{"state"}));
192 $n{"op_flags"} = "N" if (! exists($n{"op_flags"}));
194 push(@obst_new_irop, "\n memset(&ops, 0, sizeof(ops));\n");
195 push(@obst_new_irop, " ops.dump_node = dump_node_$arch;\n");
197 if ($cmp_attr_func) {
198 push(@obst_new_irop, " ops.node_cmp_attr = cmp_attr_$op;\n");
201 $temp = " op_$op = new_ir_op(get_next_ir_opcode(), \"$op\", op_pin_state_".$n{"state"}.", ".$n{"op_flags"};
202 $temp .= ", ".translate_arity($arity).", 0, sizeof(asmop_attr), &ops);\n";
203 push(@obst_new_irop, $temp);
208 open(OUT, ">$target_c") || die("Could not open $target_c, reason: $!\n");
210 print OUT @obst_cmp_attr;
212 print OUT @obst_opvar;
214 print OUT @obst_get_opvar;
216 print OUT "int is_".$arch."_irn(const ir_node *node) {\n if (".join(" ||\n ", @obst_is_archirn).")\n return 1;\n else\n return 0;\n}\n\n";
217 print OUT @obst_constructor;
219 print OUT<<ENDOFMAIN;
221 * Creates the $arch specific firm operations
222 * needed for the assembler irgs.
224 void $arch\_create_opcodes(void) {
225 #define N irop_flag_none
226 #define L irop_flag_labeled
227 #define C irop_flag_commutative
228 #define X irop_flag_cfopcode
229 #define I irop_flag_ip_cfopcode
230 #define F irop_flag_fragile
231 #define Y irop_flag_forking
232 #define H irop_flag_highlevel
233 #define c irop_flag_constlike
239 print OUT @obst_new_irop;
244 open(OUT, ">$target_h") || die("Could not open $target_h, reason: $!\n");
246 print OUT @obst_header;
251 # Translates numeric arity into string constant.
253 sub translate_arity {
256 if ($arity =~ /^\d+$/) {
258 return "oparity_zero";
260 elsif ($arity == 1) {
261 return "oparity_unary";
263 elsif ($arity == 2) {
264 return "oparity_binary";
266 elsif ($arity == 3) {
267 return "oparity_trinary";
274 return "oparity_".$arity;