/*
File: cgwas.c
Author: John van Groningen
*/
#include <stdio.h>
#include <string.h>
#include <ctype.h>
#define MODULES
#include "cgport.h"
#ifndef G_POWER
#include "cgrconst.h"
#include "cgtypes.h"
#include "cg.h"
#include "cgiconst.h"
#include "cgcode.h"
#include "cginstructions.h"
#include "cgwas.h"
#pragma segment Code5
#define IO_BUF_SIZE 8192
#ifdef SUN
# define sun_flag 1
#else
# define sun_flag 0
#endif
static FILE *assembly_file;
static void w_as_newline (VOID)
{
putc ('\n',assembly_file);
}
static void w_as_opcode (char *opcode)
{
fprintf (assembly_file,"\t%s\t",opcode);
}
static void w_as_instruction_without_parameters (char *opcode)
{
fprintf (assembly_file,"\t%s\n",opcode);
}
static void w_as_define_local_label (int label_number)
{
fprintf (assembly_file,"l_%d:\n",label_number);
}
static void w_as_define_internal_label (int label_number)
{
fprintf (assembly_file,"i_%d:\n",label_number);
}
#ifdef MODULES
void w_as_new_module (int flag)
{
if (flag)
fprintf (assembly_file,";\tmodule+\n");
else
fprintf (assembly_file,";\tmodule\n");
}
#endif
static int in_data_section;
void w_as_to_data_section (VOID)
{
if (!in_data_section){
in_data_section=1;
w_as_instruction_without_parameters (sun_flag ? ".data" : "data");
}
}
static void w_as_to_code_section (VOID)
{
if (in_data_section){
in_data_section=0;
w_as_instruction_without_parameters (sun_flag ? ".text" : "code");
}
}
void w_as_internal_label_value (int label_id)
{
w_as_to_data_section();
if (sun_flag)
fprintf (assembly_file,"\t.long\ti_%d\n",label_id);
else {
fprintf (assembly_file,"\tdatarefs\trelative\n");
fprintf (assembly_file,"\tdc.w\ti_%d\n",label_id);
fprintf (assembly_file,"\tdatarefs\tabsolute\n");
}
}
void w_as_word_in_data_section (int n)
{
w_as_to_data_section();
w_as_opcode (sun_flag ? ".word" : "dc.w");
fprintf (assembly_file,"%d",n);
w_as_newline();
}
void w_as_long_in_data_section (long n)
{
w_as_to_data_section();
w_as_opcode (sun_flag ? ".long" : "dc.l");
fprintf (assembly_file,"%d",n);
w_as_newline();
}
void w_as_label_in_data_section (char *label_name)
{
w_as_to_data_section ();
if (sun_flag)
fprintf (assembly_file,"\t.long\t%s\n",label_name);
else {
fprintf (assembly_file,"\tdatarefs\trelative\n");
fprintf (assembly_file,"\tdc.w\t%s\n",label_name);
fprintf (assembly_file,"\tdatarefs\tabsolute\n");
}
}
void w_as_descriptor_in_data_section (char *label_name)
{
w_as_to_data_section ();
if (sun_flag)
fprintf (assembly_file,"\t.long\t%s\n",label_name);
else
fprintf (assembly_file,"\tdc.l\t%s\n",label_name);
}
void w_as_descriptor_in_code_section (char *label_name)
{
w_as_to_code_section ();
if (sun_flag)
fprintf (assembly_file,"\t.long\t%s\n",label_name);
else
fprintf (assembly_file,"\tdc.l\t%s\n",label_name);
}
static void w_as_label_in_code_section (char *label_name)
{
w_as_to_code_section ();
if (sun_flag)
fprintf (assembly_file,"\t.long\t%s\n",label_name);
else {
fprintf (assembly_file,"\tdatarefs\trelative\n");
fprintf (assembly_file,"\tdc.w\t%s\n",label_name);
fprintf (assembly_file,"\tdatarefs\tabsolute\n");
}
}
#define MAX_BYTES_PER_LINE 16
static int w_as_data (int n,unsigned char *data,int length)
{
register int i,in_string;
in_string=0;
for (i=0; i<length; ++i){
int c;
if (n>=MAX_BYTES_PER_LINE){
if (in_string){
putc ('\"',assembly_file);
in_string=0;
}
w_as_newline();
n=0;
}
if (n==0)
w_as_opcode (sun_flag ? ".byte" : "dc.b");
else
if (!in_string)
putc (',',assembly_file);
c=data[i];
if (isalnum (c) || c=='_' || c==' '){
if (!in_string){
putc ('\"',assembly_file);
in_string=1;
}
putc (c,assembly_file);
} else {
if (in_string){
putc ('\"',assembly_file);
putc (',',assembly_file);
in_string=0;
}
fprintf (assembly_file,sun_flag ? "0x%02x" : "$%02x",c);
}
++n;
}
if (in_string)
putc ('\"',assembly_file);
return n;
}
static int w_as_zeros (register int n,register int length)
{
register int i;
for (i=0; i<length; ++i){
if (n>=MAX_BYTES_PER_LINE){
w_as_newline();
n=0;
}
if (n==0)
w_as_opcode (sun_flag ? ".byte" : "dc.b");
else
putc (',',assembly_file);
fprintf (assembly_file,"0");
++n;
}
return n;
}
void w_as_c_string_in_code_section (char *string,int length,int label_number)
{
register int n;
w_as_to_code_section();
w_as_define_local_label (label_number);
n=w_as_data (0,(unsigned char *)string,length);
n=w_as_zeros (n,length & 1 ? 1 : 2);
if (n>0)
w_as_newline();
}
void w_as_define_local_label_in_code_section (int label_number)
{
w_as_to_code_section();
w_as_define_local_label (label_number);
}
void w_as_abc_string_in_code_section (char *string,int length)
{
int n;
w_as_to_code_section();
w_as_opcode (sun_flag ? ".long" : "dc.l");
fprintf (assembly_file,"%d\n",length);
n=w_as_data (0,(unsigned char *)string,length);
if (length & 3)
n=w_as_zeros (n,4-(length & 3));
if (n>0)
w_as_newline();
}
void w_as_c_string_in_data_section (char *string,int length)
{
register int n;
w_as_to_data_section();
n=w_as_data (0,(unsigned char *)string,length);
n=w_as_zeros (n,4-(length & 3));
/* n=w_as_zeros (n,length & 1 ? 1 : 2); */
if (n>0)
w_as_newline();
}
void w_as_descriptor_string_in_code_section
(char *string,int length,int string_code_label_id,LABEL *string_label)
{
register int n;
w_as_to_code_section();
w_as_define_internal_label (string_code_label_id);
if (!sun_flag){
fprintf (assembly_file,"\tlea\t6+*(pc),a0\n");
fprintf (assembly_file,"\trts\n");
#ifdef MODULES
w_as_new_module (1);
#endif
}
w_as_define_local_label (string_label->label_number);
w_as_opcode (sun_flag ? ".long" : "dc.l");
fprintf (assembly_file,"%d\n",length);
n=w_as_data (0,(unsigned char *)string,length);
if (length & 3)
n=w_as_zeros (n,4-(length & 3));
if (n>0)
w_as_newline();
}
enum { SIZE_LONG, SIZE_WORD, SIZE_BYTE };
static void w_as_opcode_and_size (char *opcode,int size_flag)
{
switch (size_flag){
case SIZE_BYTE:
fprintf (assembly_file,sun_flag ? "\t%sb\t" : "\t%s.b\t",opcode);
return;
case SIZE_WORD:
fprintf (assembly_file,sun_flag ? "\t%sw\t" : "\t%s.w\t",opcode);
return;
case SIZE_LONG:
fprintf (assembly_file,sun_flag ? "\t%sl\t" : "\t%s.l\t",opcode);
return;
default:
internal_error_in_function ("w_as_opcode_and_size");
}
}
static void w_as_opcode_and_d (char *opcode)
{
fprintf (assembly_file,sun_flag ? "\t%sd\t" : "\t%s.d\t",opcode);
}
static void w_as_opcode_and_x (char *opcode)
{
fprintf (assembly_file,sun_flag ? "\t%sx\t" : "\t%s.x\t",opcode);
}
static void w_as_label (register char *label)
{
int c;
while (c=*label++,c!=0)
putc (c,assembly_file);
}
static void w_as_colon (VOID)
{
putc (':',assembly_file);
}
static void w_as_define_label_name (char *label_name)
{
w_as_label (label_name);
w_as_colon();
w_as_newline();
}
void w_as_define_label (LABEL *label)
{
if (label->label_flags & EXPORT_LABEL){
w_as_opcode (sun_flag ? ".globl" : "export");
w_as_label (label->label_name);
w_as_newline();
}
w_as_label (label->label_name);
w_as_colon();
w_as_newline();
}
static void w_as_local_label (int label_number)
{
fprintf (assembly_file,"l_%d",label_number);
}
static void w_as_internal_label (int label_number)
{
fprintf (assembly_file,"i_%d",label_number);
}
void w_as_abc_string_and_label_in_code_section (char *string,int length,char *label_name)
{
int n;
w_as_to_code_section();
w_as_define_label_name (label_name);
w_as_opcode (sun_flag ? ".long" : "dc.l");
fprintf (assembly_file,"%d\n",length);
n=w_as_data (0,(unsigned char *)string,length);
if (length & 3)
n=w_as_zeros (n,4-(length & 3));
if (n>0)
w_as_newline();
}
static void w_as_immediate (LONG i)
{
fprintf (assembly_file,"#%ld",i);
}
static void w_as_indirect (int i,int reg)
{
if (sun_flag)
fprintf (assembly_file,"a%d@(%d)",a_reg_num (reg),i);
else
fprintf (assembly_file,"%d(a%d)",i,a_reg_num (reg));
}
static void w_as_register (int reg)
{
if (is_d_register (reg))
fprintf (assembly_file,"d%d",d_reg_num (reg));
else
fprintf (assembly_file,"a%d",a_reg_num (reg));
}
static struct relocatable_words_list *first_relocatable_word,*last_relocatable_word;
static int n_relocatable_words,n_relocatable_longs;
static void w_as_null_descriptor (char *label_name)
{
if (sun_flag){
fprintf (assembly_file,"rl_%d:",n_relocatable_longs++);
w_as_opcode (".long");
fprintf (assembly_file,"%s\n",label_name);
} else {
fprintf (assembly_file,"\tdatarefs\trelative\n");
fprintf (assembly_file,"\tdc.w\t%s\n",label_name);
fprintf (assembly_file,"\tdatarefs\tabsolute\n");
}
}
static void w_as_opcode_immediate_descriptor (char *opcode,char *label_name,int arity,int size_flag)
{
if (sun_flag){
if (size_flag==SIZE_WORD){
struct relocatable_words_list *new_relocatable_word;
fprintf (assembly_file,"rw_%d:",n_relocatable_words++);
w_as_opcode (opcode);
fprintf (assembly_file,"#%d",arity<<3);
new_relocatable_word=(struct relocatable_words_list*)fast_memory_allocate (sizeof (struct relocatable_words_list));
new_relocatable_word->relocatable_next=NULL;
new_relocatable_word->relocatable_label_name=label_name;
if (first_relocatable_word==NULL)
first_relocatable_word=new_relocatable_word;
else
last_relocatable_word->relocatable_next=new_relocatable_word;
last_relocatable_word=new_relocatable_word;
} else {
fprintf (assembly_file,"rl_%d:",n_relocatable_longs++);
w_as_opcode (opcode);
fprintf (assembly_file,"#%s",label_name);
if (arity!=0)
fprintf (assembly_file,"+%d",arity<<3);
}
} else {
w_as_opcode (opcode);
fprintf (assembly_file,"#%s",label_name);
if (arity!=0)
fprintf (assembly_file,"+%d",arity<<2);
}
}
static void w_as_comma (VOID)
{
putc (',',assembly_file);
}
static void w_as_minus (VOID)
{
putc ('-',assembly_file);
}
static void w_as_slash (VOID)
{
putc ('/',assembly_file);
}
static void w_as_parameter (register struct parameter *parameter)
{
switch (parameter->parameter_type){
case P_REGISTER:
{
int reg=parameter->parameter_data.reg.r;
if (is_d_register (reg))
fprintf (assembly_file,"d%d",d_reg_num (reg));
else
fprintf (assembly_file,"a%d",a_reg_num (reg));
break;
}
case P_LABEL:
if (parameter->parameter_data.l->label_number!=0)
w_as_local_label (parameter->parameter_data.l->label_number);
else
w_as_label (parameter->parameter_data.l->label_name);
break;
case P_INDIRECT:
if (sun_flag){
if (parameter->parameter_offset==0)
fprintf (assembly_file,"a%d@",a_reg_num (parameter->parameter_data.reg.r));
else
fprintf (assembly_file,"a%d@(%d)",a_reg_num (parameter->parameter_data.reg.r),
parameter->parameter_offset);
} else {
if (parameter->parameter_offset==0)
fprintf (assembly_file,"(a%d)",a_reg_num (parameter->parameter_data.reg.r));
else
fprintf (assembly_file,"%d(a%d)",parameter->parameter_offset,
a_reg_num (parameter->parameter_data.reg.r));
}
break;
case P_IMMEDIATE:
fprintf (assembly_file,"#%ld",parameter->parameter_data.i);
break;
case P_POST_INCREMENT:
if (sun_flag)
fprintf (assembly_file,"a%d@+",a_reg_num (parameter->parameter_data.reg.r));
else
fprintf (assembly_file,"(a%d)+",a_reg_num (parameter->parameter_data.reg.r));
break;
case P_PRE_DECREMENT:
if (sun_flag)
fprintf (assembly_file,"a%d@-",a_reg_num (parameter->parameter_data.reg.r));
else
fprintf (assembly_file,"-(a%d)",a_reg_num (parameter->parameter_data.reg.r));
break;
case P_F_REGISTER:
fprintf (assembly_file,"fp%d",parameter->parameter_data.reg.r);
break;
case P_F_IMMEDIATE:
fprintf (assembly_file,sun_flag ? "#0r%.20e" : "#\"%g\"",*parameter->parameter_data.r);
break;
case P_INDEXED:
{
struct index_registers *index_registers;
int offset;
index_registers=parameter->parameter_data.ir;
offset=parameter->parameter_offset;
if ((offset & 3)==0)
fprintf (assembly_file,"%d(a%d,d%d.l)",offset>>2,
a_reg_num (index_registers->a_reg.r),d_reg_num (index_registers->d_reg.r));
else
fprintf (assembly_file,"%d(a%d,d%d.l*%d)",offset>>2,
a_reg_num (index_registers->a_reg.r),d_reg_num (index_registers->d_reg.r),
1<<(offset & 3));
break;
}
default:
internal_error_in_function ("w_as_parameter");
}
}
static void w_as_move_instruction (struct instruction *instruction,int size_flag)
{
if (size_flag==SIZE_LONG
&& instruction->instruction_parameters[0].parameter_type==P_DESCRIPTOR_NUMBER)
{
w_as_opcode_immediate_descriptor (
sun_flag ? "movel" : "moved",
instruction->instruction_parameters[0].parameter_data.l->label_name,
instruction->instruction_parameters[0].parameter_offset,SIZE_LONG
);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
if (instruction->instruction_parameters[0].parameter_type==P_IMMEDIATE){
LONG i;
i=instruction->instruction_parameters[0].parameter_data.i;
if (size_flag==SIZE_LONG && i<128 && i>=-128
&& instruction->instruction_parameters[1].parameter_type==P_REGISTER
&& is_d_register (instruction->instruction_parameters[1].parameter_data.reg.r))
{
w_as_opcode ("moveq");
w_as_immediate (i);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
if (i==0 && instruction->instruction_parameters[1].parameter_type!=P_REGISTER){
w_as_opcode_and_size ("clr",size_flag);
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
}
w_as_opcode_and_size ("move",size_flag);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_dyadic_instruction (struct instruction *instruction,char *opcode)
{
w_as_opcode (opcode);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_lea_instruction (struct instruction *instruction)
{
w_as_opcode ("lea");
w_as_parameter (&instruction->instruction_parameters[0]);
if (instruction->instruction_parameters[0].parameter_type==P_LABEL &&
instruction->instruction_parameters[0].parameter_offset!=0)
{
int offset;
offset=instruction->instruction_parameters[0].parameter_offset;
fprintf (assembly_file,offset>=0 ? "+%d" : "%d",offset);
}
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_dyadic_float_instruction (struct instruction *instruction,char *opcode)
{
if (instruction->instruction_parameters[0].parameter_type==P_F_REGISTER
&& instruction->instruction_parameters[1].parameter_type==P_F_REGISTER)
{
if (sun_flag)
w_as_opcode_and_x (opcode);
else
w_as_opcode (opcode);
} else
w_as_opcode_and_d (opcode);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_monadic_instruction (struct instruction *instruction,char *opcode)
{
w_as_opcode (opcode);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
static void w_as_add_instruction (struct instruction *instruction)
{
if (instruction->instruction_parameters[1].parameter_type==P_REGISTER
&& instruction->instruction_parameters[0].parameter_type==P_IMMEDIATE)
{
LONG i=instruction->instruction_parameters[0].parameter_data.i;
if (i<=8 && i>=-8 && i!=0){
if (i>0){
w_as_opcode_and_size ("addq",SIZE_LONG);
w_as_immediate ((LONG)i);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
} else {
w_as_opcode_and_size ("subq",SIZE_LONG);
w_as_immediate ((LONG)-i);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
return;
} else {
int reg;
reg=instruction->instruction_parameters[1].parameter_data.reg.r;
if (is_a_register (reg) && i>=-32768 && i<32768){
w_as_opcode ("lea");
w_as_indirect ((int)i,reg);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
}
}
w_as_opcode_and_size ("add",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_sub_instruction (struct instruction *instruction)
{
if (instruction->instruction_parameters[1].parameter_type==P_REGISTER
&& instruction->instruction_parameters[0].parameter_type==P_IMMEDIATE)
{
LONG i=instruction->instruction_parameters[0].parameter_data.i;
if (i<=8 && i>=-8 && i!=0){
if (i>0){
w_as_opcode_and_size ("subq",SIZE_LONG);
w_as_immediate ((LONG)i);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
} else {
w_as_opcode_and_size ("addq",SIZE_LONG);
w_as_immediate ((LONG)-i);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
return;
} else {
int reg;
reg=instruction->instruction_parameters[1].parameter_data.reg.r;
if (is_a_register (reg) && i>-32768 && i<=32768){
w_as_opcode ("lea");
w_as_indirect ((int)-i,reg);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
}
}
w_as_opcode_and_size ("sub",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
static void w_as_cmp_instruction (struct instruction *instruction,int size_flag)
{
if (instruction->instruction_parameters[0].parameter_type==P_DESCRIPTOR_NUMBER){
switch (size_flag){
case SIZE_WORD:
w_as_opcode_immediate_descriptor (
sun_flag ? "cmpw" : "cmpdw",
instruction->instruction_parameters[0].parameter_data.l->label_name,
instruction->instruction_parameters[0].parameter_offset,SIZE_WORD
);
break;
case SIZE_LONG:
w_as_opcode_immediate_descriptor (
sun_flag ? "cmpl" : "cmpd",
instruction->instruction_parameters[0].parameter_data.l->label_name,
instruction->instruction_parameters[0].parameter_offset,SIZE_LONG
);
break;
default:
internal_error_in_function ("w_as_cmp_instruction");
}
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
return;
}
if (instruction->instruction_parameters[0].parameter_type==P_IMMEDIATE
&& instruction->instruction_parameters[0].parameter_data.i==0
&& (instruction->instruction_parameters[1].parameter_type!=P_REGISTER
|| is_d_register (instruction->instruction_parameters[1].parameter_data.reg.r)))
{
w_as_opcode_and_size ("tst",size_flag);
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
} else {
w_as_opcode_and_size ("cmp",size_flag);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
}
}
static void w_as_tst_instruction (struct instruction *instruction)
{
w_as_opcode_and_size ("tst",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
static void w_as_jsr_schedule (unsigned int n_a_and_f_registers)
{
if (n_a_and_f_registers & 15){
if ((n_a_and_f_registers & 15)==1){
w_as_opcode ("fmove");
fprintf (assembly_file,"fp0");
} else {
w_as_opcode ("fmovem");
fprintf (assembly_file,"fp0-fp%d",(n_a_and_f_registers & 15)-1);
}
fprintf (assembly_file,",-(sp)\n");
}
w_as_opcode ("jsr");
switch (n_a_and_f_registers>>4){
case 0: w_as_label (schedule_0_label->label_name); break;
case 1: w_as_label (schedule_1_label->label_name); break;
case 2: w_as_label (schedule_2_label->label_name); break;
case 3: w_as_label (schedule_3_label->label_name); break;
case 256>>4:w_as_label (schedule_eval_label->label_name); break;
default: internal_error_in_function ("w_as_jsr_schedule");
}
w_as_newline();
if (n_a_and_f_registers & 15){
if ((n_a_and_f_registers & 15)==1){
w_as_opcode ("fmove");
fprintf (assembly_file,"(sp)+,fp0\n");
} else {
w_as_opcode ("fmovem");
fprintf (assembly_file,"(sp)+,fp0-fp%d\n",(n_a_and_f_registers & 15)-1);
}
}
}
static void w_as_jmp_instruction (struct instruction *instruction)
{
if (instruction->instruction_parameters[0].parameter_type==P_LABEL
&& instruction->instruction_parameters[0].parameter_data.l->label_flags & LOCAL_LABEL
){
if (parallel_flag){
w_as_opcode ("dbra");
w_as_register (REGISTER_D6);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
w_as_jsr_schedule (instruction->instruction_parameters[0].parameter_offset);
}
w_as_opcode ("bra");
} else {
if (parallel_flag){
int n_a_and_f_registers;
if (instruction->instruction_parameters[0].parameter_type==P_LABEL)
n_a_and_f_registers=instruction->instruction_parameters[0].parameter_offset;
else
n_a_and_f_registers=instruction->instruction_parameters[0].parameter_data.reg.u;
if (n_a_and_f_registers!=128){
w_as_opcode ("dbra");
w_as_register (REGISTER_D6);
w_as_comma();
fprintf (assembly_file,"%d(pc)",(n_a_and_f_registers & 15) ? 16 : 8);
w_as_newline();
w_as_jsr_schedule (n_a_and_f_registers);
}
}
w_as_opcode (sun_flag ? "jra" : "jmp");
}
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
static void w_as_jsr_instruction (struct instruction *instruction)
{
if (instruction->instruction_parameters[0].parameter_type==P_LABEL
&& instruction->instruction_parameters[0].parameter_data.l->label_flags & LOCAL_LABEL
){
if (parallel_flag){
int n_a_and_f_registers;
n_a_and_f_registers=instruction->instruction_parameters[0].parameter_offset;
w_as_opcode ("pea");
fprintf (assembly_file,"%d(pc)",(n_a_and_f_registers & 15) ? 24 : 16);
w_as_newline();
w_as_opcode ("dbra");
w_as_register (REGISTER_D6);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
w_as_jsr_schedule (n_a_and_f_registers);
w_as_opcode ("bra");
} else
w_as_opcode ("bsr");
} else {
if (parallel_flag){
int n_a_and_f_registers;
w_as_opcode ("dbra");
w_as_register (REGISTER_D6);
w_as_comma();
if (instruction->instruction_parameters[0].parameter_type==P_LABEL)
n_a_and_f_registers=instruction->instruction_parameters[0].parameter_offset;
else
n_a_and_f_registers=instruction->instruction_parameters[0].parameter_data.reg.u;
fprintf (assembly_file,"%d(pc)",(n_a_and_f_registers & 15) ? 16 : 8);
w_as_newline();
w_as_jsr_schedule (n_a_and_f_registers);
}
w_as_opcode (sun_flag ? "jbsr": "jsr");
}
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
static void w_as_extb_instruction (struct instruction *instruction)
{
if (!mc68000_flag){
w_as_opcode_and_size ("extb",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
} else {
w_as_opcode_and_size ("ext",SIZE_WORD);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
w_as_opcode_and_size ("ext",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
}
static void w_as_set_condition_instruction (struct instruction *instruction,char *opcode)
{
w_as_monadic_instruction (instruction,opcode);
w_as_extb_instruction (instruction);
}
static void w_as_movem_instruction (struct instruction *instruction)
{
int first_register_index,last_register_index,register_index;
int previous_register,previous_count;
w_as_opcode_and_size ("movem",SIZE_LONG);
if (instruction->instruction_parameters[0].parameter_type!=P_REGISTER){
w_as_parameter (&instruction->instruction_parameters[0]);
first_register_index=1;
last_register_index=instruction->instruction_arity-1;
w_as_comma();
if (sun_flag && last_register_index==1)
previous_count=1;
else
previous_count=0;
} else {
first_register_index=0;
last_register_index=instruction->instruction_arity-2;
previous_count=0;
}
previous_register=instruction->instruction_parameters[first_register_index].parameter_data.reg.r;
w_as_register (previous_register);
for (register_index=first_register_index+1; register_index<=last_register_index; ++register_index){
int reg;
reg=instruction->instruction_parameters[register_index].parameter_data.reg.r;
if (is_d_register (reg)
? is_d_register (previous_register) && d_reg_num (previous_register)+1==d_reg_num (reg)
: is_a_register (previous_register) && a_reg_num (previous_register)+1==a_reg_num (reg))
{
++previous_count;
previous_register=reg;
} else {
if (previous_count>1)
w_as_minus();
else
w_as_slash();
if (previous_count>0)
w_as_register (previous_register);
w_as_slash();
w_as_register (reg);
previous_register=reg;
previous_count=0;
}
}
if (previous_count>0){
if (previous_count>1)
w_as_minus();
else
w_as_slash();
w_as_register (previous_register);
}
if (instruction->instruction_parameters[0].parameter_type==P_REGISTER){
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[instruction->instruction_arity-1]);
}
w_as_newline();
}
static void w_as_mod_instruction (struct instruction *instruction)
{
w_as_opcode (sun_flag ? "divsll" : "tdivs.l");
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_colon();
w_as_parameter (&instruction->instruction_parameters[2]);
w_as_newline();
}
static int next_bmove_label;
static void w_as_bmove_instruction (struct instruction *instruction)
{
char label_1_string[12],label_2_string[12];
sprintf (label_1_string,"b%d",next_bmove_label++);
sprintf (label_2_string,"b%d",next_bmove_label++);
w_as_opcode (sun_flag ? "bras" : "bra.s");
w_as_label (label_2_string);
w_as_newline();
w_as_define_label_name (label_1_string);
w_as_opcode_and_size ("move",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_comma();
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
w_as_define_label_name (label_2_string);
w_as_opcode ("dbra");
w_as_parameter (&instruction->instruction_parameters[2]);
w_as_comma();
w_as_label (label_1_string);
w_as_newline();
}
static void w_as_eor_instruction (struct instruction *instruction)
{
if (instruction->instruction_parameters[0].parameter_type==P_IMMEDIATE
&& instruction->instruction_parameters[0].parameter_data.i==-1)
{
w_as_opcode_and_size ("not",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[1]);
w_as_newline();
} else
w_as_dyadic_instruction (instruction,sun_flag ? "eorl" : "eor.l");
}
static void w_as_ext_instruction (struct instruction *instruction)
{
w_as_opcode_and_size ("ext",SIZE_LONG);
w_as_parameter (&instruction->instruction_parameters[0]);
w_as_newline();
}
static void w_as_word_instruction (struct instruction *instruction)
{
fprintf (assembly_file,sun_flag ? "\t.word\t%d\n" : "\tdc.w\t%d\n",
(int)instruction->instruction_parameters[0].parameter_data.i);
}
static void w_as_instructions (register struct instruction *instruction)
{
while (instruction!=NULL){
switch (instruction->instruction_icode){
case IMOVE:
w_as_move_instruction (instruction,SIZE_LONG);
break;
case ILEA:
w_as_lea_instruction (instruction);
break;
case IADD:
w_as_add_instruction (instruction);
break;
case ISUB:
w_as_sub_instruction (instruction);
break;
case ICMP:
w_as_cmp_instruction (instruction,SIZE_LONG);
break;
case IJMP:
w_as_jmp_instruction (instruction);
break;
case IJSR:
w_as_jsr_instruction (instruction);
break;
case IRTS:
w_as_instruction_without_parameters ("rts");
break;
case IBEQ:
w_as_monadic_instruction (instruction,"beq");
break;
case IBGE:
w_as_monadic_instruction (instruction,"bge");
break;
case IBGT:
w_as_monadic_instruction (instruction,"bgt");
break;
case IBHS:
w_as_monadic_instruction (instruction,"bhs");
break;
case IBLE:
w_as_monadic_instruction (instruction,"ble");
break;
case IBLT:
w_as_monadic_instruction (instruction,"blt");
break;
case IBNE:
w_as_monadic_instruction (instruction,"bne");
break;
case IBMI:
w_as_monadic_instruction (instruction,"bmi.s");
break;
case ILSL:
w_as_dyadic_instruction (instruction,sun_flag ? "lsll" : "lsl.l");
break;
case ILSR:
w_as_dyadic_instruction (instruction,sun_flag ? "lsrl" : "lsr.l");
break;
case IASR:
w_as_dyadic_instruction (instruction,sun_flag ? "asrl" : "asr.l");
break;
case IMUL:
w_as_dyadic_instruction (instruction,sun_flag ? "mulsl" : "muls.l");
break;
case IDIV:
w_as_dyadic_instruction (instruction,sun_flag ? "divsl" : "divs.l");
break;
case IEXG:
w_as_dyadic_instruction (instruction,"exg");
break;
case IMOD:
w_as_mod_instruction (instruction);
break;
case IMOVEM:
w_as_movem_instruction (instruction);
break;
case IBMOVE:
w_as_bmove_instruction (instruction);
break;
case IAND:
w_as_dyadic_instruction (instruction,sun_flag ? "andl" : "and.l");
break;
case IOR:
w_as_dyadic_instruction (instruction,sun_flag ? "orl" : "or.l");
break;
case IEOR:
w_as_eor_instruction (instruction);
break;
case ISEQ:
w_as_set_condition_instruction (instruction,"seq");
break;
case ISGE:
w_as_set_condition_instruction (instruction,"sge");
break;
case ISGT:
w_as_set_condition_instruction (instruction,"sgt");
break;
case ISLE:
w_as_set_condition_instruction (instruction,"sle");
break;
case ISLT:
w_as_set_condition_instruction (instruction,"slt");
break;
case ISNE:
w_as_set_condition_instruction (instruction,"sne");
break;
case ICMPW:
w_as_cmp_instruction (instruction,SIZE_WORD);
break;
case ITST:
w_as_tst_instruction (instruction);
break;
case IMOVEW:
w_as_move_instruction (instruction,SIZE_WORD);
break;
case IMOVEB:
w_as_move_instruction (instruction,SIZE_BYTE);
break;
case IFMOVE:
w_as_dyadic_float_instruction (instruction,"fmove");
break;
case IFADD:
w_as_dyadic_float_instruction (instruction,"fadd");
break;
case IFSUB:
w_as_dyadic_float_instruction (instruction,"fsub");
break;
case IFCMP:
w_as_dyadic_float_instruction (instruction,"fcmp");
break;
case IFDIV:
w_as_dyadic_float_instruction (instruction,"fdiv");
break;
case IFMUL:
w_as_dyadic_float_instruction (instruction,"fmul");
break;
case IFREM:
w_as_dyadic_float_instruction (instruction,"frem");
break;
case IFBEQ:
w_as_monadic_instruction (instruction,"fbeq");
break;
case IFBGE:
w_as_monadic_instruction (instruction,"fbge");
break;
case IFBGT:
w_as_monadic_instruction (instruction,"fbgt");
break;
case IFBLE:
w_as_monadic_instruction (instruction,"fble");
break;
case IFBLT:
w_as_monadic_instruction (instruction,"fblt");
break;
case IFBNE:
w_as_monadic_instruction (instruction,"fbne");
break;
case IFMOVEL:
w_as_dyadic_instruction (instruction,sun_flag ? "fmovel" : "fmove.l");
break;
case IFACOS:
w_as_dyadic_float_instruction (instruction,"facos");
break;
case IFASIN:
w_as_dyadic_float_instruction (instruction,"fasin");
break;
case IFATAN:
w_as_dyadic_float_instruction (instruction,"fatan");
break;
case IFCOS:
w_as_dyadic_float_instruction (instruction,"fcos");
break;
case IFEXP:
w_as_dyadic_float_instruction (instruction,"fetox");
break;
case IFLN:
w_as_dyadic_float_instruction (instruction,"flogn");
break;
case IFLOG10:
w_as_dyadic_float_instruction (instruction,"flog10");
break;
case IFNEG:
w_as_dyadic_float_instruction (instruction,"fneg");
break;
case IFSIN:
w_as_dyadic_float_instruction (instruction,"fsin");
break;
case IFSQRT:
w_as_dyadic_float_instruction (instruction,"fsqrt");
break;
case IFTAN:
w_as_dyadic_float_instruction (instruction,"ftan");
break;
case IFSEQ:
w_as_set_condition_instruction (instruction,"fseq");
break;
case IFSGE:
w_as_set_condition_instruction (instruction,"fsge");
break;
case IFSGT:
w_as_set_condition_instruction (instruction,"fsgt");
break;
case IFSLE:
w_as_set_condition_instruction (instruction,"fsle");
break;
case IFSLT:
w_as_set_condition_instruction (instruction,"fslt");
break;
case IFSNE:
w_as_set_condition_instruction (instruction,"fsne");
break;
case IWORD:
w_as_word_instruction (instruction);
break;
case ISCHEDULE:
w_as_jsr_schedule (instruction->instruction_parameters[0].parameter_data.i);
break;
case IEXTB:
w_as_extb_instruction (instruction);
break;
case IEXT:
w_as_ext_instruction (instruction);
break;
case IFTST:
default:
internal_error_in_function ("w_as_instructions");
}
instruction=instruction->instruction_next;
}
}
static void w_as_number_of_arguments (int n_node_arguments)
{
w_as_opcode (sun_flag ? ".word" : "dc.w");
fprintf (assembly_file,"%d",n_node_arguments);
w_as_newline();
}
struct call_and_jump {
struct call_and_jump *cj_next;
WORD cj_label_id;
WORD cj_jump_id;
char *cj_call_label_name;
};
static struct call_and_jump *first_call_and_jump,*last_call_and_jump;
static void w_as_garbage_collect_test (register struct basic_block *block)
{
LONG n_cells;
int label_id_1,label_id_2;
struct call_and_jump *new_call_and_jump;
label_id_1=next_label_id++;
label_id_2=next_label_id++;
new_call_and_jump=(struct call_and_jump*)allocate_memory_from_heap (sizeof (struct call_and_jump));
new_call_and_jump->cj_next=NULL;
new_call_and_jump->cj_label_id=label_id_1;
new_call_and_jump->cj_jump_id=label_id_2;
switch (block->block_n_begin_a_parameter_registers){
case 0: new_call_and_jump->cj_call_label_name="collect_0"; break;
case 1: new_call_and_jump->cj_call_label_name="collect_1"; break;
case 2: new_call_and_jump->cj_call_label_name="collect_2"; break;
case 3: new_call_and_jump->cj_call_label_name="collect_3"; break;
default: internal_error_in_function ("w_as_garbage_collect_test");
}
if (first_call_and_jump!=NULL)
last_call_and_jump->cj_next=new_call_and_jump;
else
first_call_and_jump=new_call_and_jump;
last_call_and_jump=new_call_and_jump;
n_cells=block->block_n_new_heap_cells;
if (n_cells<=8){
w_as_opcode_and_size ("subq",SIZE_LONG);
w_as_immediate (n_cells);
w_as_comma ();
w_as_register (REGISTER_D7);
w_as_newline();
} else if (n_cells<128
&& block->block_n_begin_d_parameter_registers <
(parallel_flag ? N_DATA_PARAMETER_REGISTERS-1 : N_DATA_PARAMETER_REGISTERS))
{
w_as_opcode ("moveq");
w_as_immediate (n_cells);
w_as_comma();
w_as_register (parallel_flag ? REGISTER_D5 : REGISTER_D6);
w_as_newline();
w_as_opcode_and_size ("sub",SIZE_LONG);
w_as_register (parallel_flag ? REGISTER_D5: REGISTER_D6);
w_as_comma();
w_as_register (REGISTER_D7);
w_as_newline();
} else {
w_as_opcode_and_size ("sub",SIZE_LONG);
w_as_immediate (n_cells);
w_as_comma();
w_as_register (REGISTER_D7);
w_as_newline();
}
w_as_opcode ("bcs");
w_as_internal_label (label_id_1);
w_as_newline ();
w_as_define_internal_label (label_id_2);
}
static void w_as_call_and_jump (struct call_and_jump *call_and_jump)
{
w_as_define_internal_label (call_and_jump->cj_label_id);
w_as_opcode (sun_flag ? "jbsr" : "jsr");
w_as_label (call_and_jump->cj_call_label_name);
w_as_newline();
w_as_opcode (sun_flag ? "bra" : "jmp");
w_as_internal_label (call_and_jump->cj_jump_id);
w_as_newline();
}
static void w_as_labels (register struct block_label *labels)
{
for (; labels!=NULL; labels=labels->block_label_next)
if (labels->block_label_label->label_number==0){
register LABEL *label;
label=labels->block_label_label;
w_as_define_label (label);
}
}
static void w_as_indirect_node_entry_jump (LABEL *label)
{
char *new_label_name;
new_label_name=(char*)fast_memory_allocate (strlen (label->label_name)+1+2);
strcpy (new_label_name,"j_");
strcat (new_label_name,label->label_name);
if (label->label_flags & EA_LABEL){
int label_arity;
extern LABEL *eval_fill_label,*eval_upd_labels[];
label_arity=label->label_arity;
if (label_arity<-2)
label_arity=1;
if (label_arity>=0 && label->label_ea_label!=eval_fill_label){
w_as_opcode ("lea");
w_as_label (label->label_ea_label->label_name);
w_as_comma();
w_as_register (REGISTER_A2);
w_as_newline();
w_as_opcode ("jmp");
w_as_label (eval_upd_labels[label_arity]->label_name);
w_as_newline();
} else {
w_as_opcode ("jmp");
w_as_label (label->label_ea_label->label_name);
w_as_newline();
w_as_instruction_without_parameters ("nop");
w_as_instruction_without_parameters ("nop");
}
if (label->label_arity<0 || parallel_flag){
LABEL *descriptor_label;
descriptor_label=label->label_descriptor;
if (descriptor_label->label_id<0)
descriptor_label->label_id=next_label_id++;
w_as_null_descriptor (descriptor_label->label_name);
} else
w_as_number_of_arguments (0);
} else
if (label->label_arity<0 || parallel_flag){
LABEL *descriptor_label;
descriptor_label=label->label_descriptor;
if (descriptor_label->label_id<0)
descriptor_label->label_id=next_label_id++;
w_as_null_descriptor (descriptor_label->label_name);
}
w_as_number_of_arguments (label->label_arity);
w_as_define_label_name (new_label_name);
w_as_opcode ("jmp");
w_as_label (label->label_name);
w_as_newline();
label->label_name=new_label_name;
}
static void w_as_indirect_defered_jump (register LABEL *label)
{
w_as_null_descriptor (EMPTY_label->label_name);
w_as_number_of_arguments (label->label_arity);
w_as_define_local_label (label->label_number);
w_as_opcode ("jmp");
w_as_label (label->label_descriptor->label_name);
w_as_newline();
}
static void w_as_import_labels (register struct label_node *label_node)
{
register LABEL *label;
if (label_node==NULL)
return;
label=&label_node->label_node_label;
if (!(label->label_flags & LOCAL_LABEL) && label->label_number==0){
w_as_opcode ("import");
w_as_label (label->label_name);
if (label->label_flags & DATA_LABEL)
fprintf (assembly_file,":data");
w_as_newline();
if (label->label_flags & NODE_ENTRY_LABEL){
#ifdef MODULES
w_as_new_module (0);
#endif
w_as_indirect_node_entry_jump (label);
}
}
w_as_import_labels (label_node->label_node_left);
w_as_import_labels (label_node->label_node_right);
}
static void w_as_indirect_jumps_for_defer_labels (void)
{
struct local_label *local_label;
for (local_label=local_labels; local_label!=NULL; local_label=local_label->local_label_next){
LABEL *label;
label=&local_label->local_label_label;
if (label->label_flags & DEFERED_LABEL){
#ifdef MODULES
w_as_new_module (0);
#endif
w_as_indirect_defered_jump (label);
}
}
}
static void w_as_begin (VOID)
{
fprintf (assembly_file,"\tcase\ton\n");
fprintf (assembly_file,"\tstring\tasis\n");
if (!mc68000_flag)
fprintf (assembly_file,"\tmachine\tmc68020\n");
if (mc68881_flag)
fprintf (assembly_file,"\tmc68881\n");
fprintf (assembly_file,"\tinclude\t'descriptor_macros.h'\n");
fprintf (assembly_file,"\tproc\n");
}
static char local_stack_overflow_label_name[]="l_stack_overflow";
static void init_stack_checking (VOID)
{
w_as_define_label_name (local_stack_overflow_label_name);
w_as_opcode (sun_flag ? "jra": "jmp");
w_as_label (stack_overflow_label->label_name);
w_as_newline();
}
#define EXTRA_STACK_SPACE 2000 /* 300 */
static void w_as_check_stack (register struct basic_block *block)
{
int size,n_d_parameters,n_a_parameters;
int label_id_1,label_id_2;
if (parallel_flag){
struct call_and_jump *new_call_and_jump;
label_id_1=next_label_id++;
label_id_2=next_label_id++;
new_call_and_jump=(struct call_and_jump*)allocate_memory_from_heap (sizeof (struct call_and_jump));
new_call_and_jump->cj_next=NULL;
new_call_and_jump->cj_label_id=label_id_1;
new_call_and_jump->cj_jump_id=label_id_2;
switch (block->block_n_begin_a_parameter_registers){
case 0: new_call_and_jump->cj_call_label_name="realloc_0"; break;
case 1: new_call_and_jump->cj_call_label_name="realloc_1"; break;
case 2: new_call_and_jump->cj_call_label_name="realloc_2"; break;
case 3: new_call_and_jump->cj_call_label_name="realloc_3"; break;
default: internal_error_in_function ("as_garbage_check_stack");
}
if (first_call_and_jump!=NULL)
last_call_and_jump->cj_next=new_call_and_jump;
else
first_call_and_jump=new_call_and_jump;
last_call_and_jump=new_call_and_jump;
}
size=block->block_stack_check_size;
/* if (parallel_flag) */
size+=EXTRA_STACK_SPACE;
n_d_parameters=block->block_n_begin_d_parameter_registers;
n_a_parameters=block->block_n_begin_a_parameter_registers;
if (size<=4){
/* CMPA.L A_STACK_POINTER,B_STACK_POINTER */
w_as_opcode_and_size ("cmp",SIZE_LONG);
w_as_register (A_STACK_POINTER);
w_as_comma();
w_as_register (B_STACK_POINTER);
w_as_newline();
/* BLS */
w_as_opcode ("bls");
} else if (size<=127
&& n_d_parameters <
(parallel_flag ? N_DATA_PARAMETER_REGISTERS-1 : N_DATA_PARAMETER_REGISTERS))
{
/* MOVEQ #size,D5/D6 */
w_as_opcode ("moveq");
w_as_immediate (size);
w_as_comma();
w_as_register (parallel_flag ? REGISTER_D5 : REGISTER_D6);
w_as_newline();
/* ADD.L A_STACK_POINTER,D5/D6 */
w_as_opcode_and_size ("add",SIZE_LONG);
w_as_register (A_STACK_POINTER);
w_as_comma();
w_as_register (parallel_flag ? REGISTER_D5 : REGISTER_D6);
w_as_newline();
/* CMP.L B_STACK_POINTER,D5/D6 */
w_as_opcode_and_size ("cmp",SIZE_LONG);
w_as_register (B_STACK_POINTER);
w_as_comma();
w_as_register (parallel_flag ? REGISTER_D5 : REGISTER_D6);
w_as_newline();
/* BHI */
w_as_opcode ("bhi");
} else if (n_a_parameters<N_ADDRESS_PARAMETER_REGISTERS){
/* LEA size(A_STACK_POINTER),A2 */
w_as_opcode ("lea");
w_as_indirect (size,A_STACK_POINTER);
w_as_comma();
w_as_register (REGISTER_A2);
w_as_newline();
/* CMPA.L B_STACK_POINTER,A2 */
w_as_opcode_and_size ("cmp",SIZE_LONG);
w_as_register (B_STACK_POINTER);
w_as_comma();
w_as_register (REGISTER_A2);
w_as_newline();
/* BHI */
w_as_opcode ("bhi");
} else {
/* SUBA.L B_STACK_POINTER,A_STACK_POINTER */
w_as_opcode_and_size ("sub",SIZE_LONG);
w_as_register (B_STACK_POINTER);
w_as_comma();
w_as_register (A_STACK_POINTER);
w_as_newline();
/* CMPA.W #-size,A_STACK_POINTER */
w_as_opcode_and_size ("cmp",SIZE_WORD);
w_as_immediate (-size);
w_as_comma();
w_as_register (A_STACK_POINTER);
w_as_newline();
/* ADDA.L B_STACK_POINTER,A_STACK_POINTER */
w_as_opcode_and_size ("add",SIZE_LONG);
w_as_register (B_STACK_POINTER);
w_as_comma();
w_as_register (A_STACK_POINTER);
w_as_newline();
/* BGT */
w_as_opcode ("bgt");
}
if (!parallel_flag){
w_as_label (local_stack_overflow_label_name);
w_as_newline();
} else {
w_as_internal_label (label_id_1);
w_as_newline ();
w_as_define_internal_label (label_id_2);
}
}
void initialize_write_assembly (FILE *ass_file)
{
assembly_file=ass_file;
next_bmove_label=0;
in_data_section=0;
first_relocatable_word=NULL;
last_relocatable_word=NULL;
n_relocatable_words=0;
n_relocatable_longs=0;
first_call_and_jump=NULL;
if (!sun_flag)
w_as_begin();
if (check_stack && !parallel_flag)
init_stack_checking();
}
static void w_as_relocation_routine (VOID)
{
struct dependency_list *dependency;
struct relocatable_words_list *r_word;
int n;
fprintf (assembly_file,"rf_%s:\t.word\t0\n",this_module_name);
fprintf (assembly_file,"\t.globl\tre_%s\n",this_module_name);
fprintf (assembly_file,"re_%s:\n",this_module_name);
fprintf (assembly_file,"\ttstb\trf_%s\n",this_module_name);
fprintf (assembly_file,"\tbne\trx_%s\n",this_module_name);
fprintf (assembly_file,"\tst\trf_%s\n",this_module_name);
fprintf (assembly_file,"\tmovel\t#%d,d0\n",n_relocatable_longs);
fprintf (assembly_file,"\tmovel\t#%d,d1\n",n_relocatable_words);
fprintf (assembly_file,"\tlea\trlt_%s,a0\n",this_module_name);
fprintf (assembly_file,"\tlea\trwt_%s,a1\n",this_module_name);
fprintf (assembly_file,"\tjbsr\ta2@\n");
for (dependency=first_dependency; dependency!=NULL; dependency=dependency->dependency_next)
fprintf (assembly_file,"\tjbsr\tre_%s\n",dependency->dependency_module_name);
fprintf (assembly_file,"rx_%s:\n",this_module_name);
fprintf (assembly_file,"\trts\n");
fprintf (assembly_file,"rlt_%s:\n",this_module_name);
for (n=0; n<n_relocatable_longs; ++n)
fprintf (assembly_file,"\t.long\trl_%d\n",n);
fprintf (assembly_file,"rwt_%s:\n",this_module_name);
n=0;
for (r_word=first_relocatable_word; r_word!=NULL; r_word=r_word->relocatable_next)
fprintf (assembly_file,"\t.long\trw_%d,%s\n",n++,r_word->relocatable_label_name);
}
void write_assembly (VOID)
{
register struct basic_block *block;
register struct call_and_jump *call_and_jump;
w_as_to_code_section();
release_heap();
if (!sun_flag)
w_as_import_labels (labels);
w_as_indirect_jumps_for_defer_labels();
for (block=first_block; block!=NULL; block=block->block_next){
#ifdef MODULES
if (block->block_begin_module)
w_as_new_module (block->block_link_module);
#endif
if (block->block_n_node_arguments>-100){
#ifdef CLOSURE_NAMES
if (block->block_descriptor!=NULL && block->block_descriptor_or_string!=0){
int length,n;
char *string;
string=(char*)block->block_descriptor;
length=strlen (string);
n=w_as_data (0,(unsigned char *)string,length);
if (length & 3)
n=w_as_zeros (n,4-(length & 3));
if (n>0)
w_as_newline();
w_as_opcode (sun_flag ? ".long" : "dc.l");
fprintf (assembly_file,"%d\n",length);
}
#endif
if (block->block_ea_label!=NULL){
int n_node_arguments;
extern LABEL *eval_fill_label,*eval_upd_labels[];
n_node_arguments=block->block_n_node_arguments;
if (n_node_arguments<-2)
n_node_arguments=1;
if (n_node_arguments>=0 && block->block_ea_label!=eval_fill_label){
w_as_opcode ("lea");
w_as_label (block->block_ea_label->label_name);
w_as_comma();
w_as_register (REGISTER_A2);
w_as_newline();
w_as_opcode ("jmp");
w_as_label (eval_upd_labels[n_node_arguments]->label_name);
w_as_newline();
} else {
w_as_opcode ("jmp");
w_as_label (block->block_ea_label->label_name);
w_as_newline();
w_as_instruction_without_parameters ("nop");
w_as_instruction_without_parameters ("nop");
}
if (block->block_descriptor!=NULL
&& (block->block_n_node_arguments<0 || parallel_flag))
{
w_as_label_in_code_section (block->block_descriptor->label_name);
} else
w_as_number_of_arguments (0);
} else
if (block->block_descriptor!=NULL /* CHANGED 30-10 */
&& (block->block_n_node_arguments<0 || parallel_flag))
{
w_as_label_in_code_section (block->block_descriptor->label_name);
}
/* else
w_as_number_of_arguments (0);
*/
w_as_number_of_arguments (block->block_n_node_arguments);
}
w_as_labels (block->block_labels);
if (block->block_n_new_heap_cells>0)
w_as_garbage_collect_test (block);
if (check_stack && block->block_stack_check_size>0)
w_as_check_stack (block);
w_as_instructions (block->block_instructions);
}
for (call_and_jump=first_call_and_jump;
call_and_jump!=NULL; call_and_jump=call_and_jump->cj_next)
{
#ifdef MODULES
w_as_new_module (0);
#endif
w_as_call_and_jump (call_and_jump);
}
if (sun_flag)
w_as_relocation_routine();
if (!sun_flag){
fprintf (assembly_file,"\tendproc\n");
fprintf (assembly_file,"\tend\n");
}
release_heap();
}
#endif