"field",
"function",
"pointer",
-#if 0
"integer",
-#endif
- "variant"
+ "variant",
+ "struct",
+ "union",
+ "array"
};
size_t type_sizeof[TYPE_COUNT] = {
1, /* TYPE_FIELD */
1, /* TYPE_FUNCTION */
1, /* TYPE_POINTER */
-#if 0
1, /* TYPE_INTEGER */
-#endif
3, /* TYPE_VARIANT */
+ 0, /* TYPE_STRUCT */
+ 0, /* TYPE_UNION */
+ 0, /* TYPE_ARRAY */
};
uint16_t type_store_instr[TYPE_COUNT] = {
INSTR_STORE_ENT, /* should use I */
#if 0
INSTR_STORE_I, /* integer type */
+#else
+ INSTR_STORE_F,
+#endif
+
+ INSTR_STORE_V, /* variant, should never be accessed */
+
+ AINSTR_END, /* struct */
+ AINSTR_END, /* union */
+ AINSTR_END, /* array */
+};
+
+uint16_t field_store_instr[TYPE_COUNT] = {
+ INSTR_STORE_FLD,
+ INSTR_STORE_FLD,
+ INSTR_STORE_FLD,
+ INSTR_STORE_V,
+ INSTR_STORE_FLD,
+ INSTR_STORE_FLD,
+ INSTR_STORE_FLD,
+ INSTR_STORE_FLD,
+#if 0
+ INSTR_STORE_FLD, /* integer type */
+#else
+ INSTR_STORE_FLD,
#endif
INSTR_STORE_V, /* variant, should never be accessed */
+
+ AINSTR_END, /* struct */
+ AINSTR_END, /* union */
+ AINSTR_END, /* array */
};
uint16_t type_storep_instr[TYPE_COUNT] = {
INSTR_STOREP_ENT, /* should use I */
#if 0
INSTR_STOREP_ENT, /* integer type */
+#else
+ INSTR_STOREP_F,
#endif
INSTR_STOREP_V, /* variant, should never be accessed */
+
+ AINSTR_END, /* struct */
+ AINSTR_END, /* union */
+ AINSTR_END, /* array */
};
uint16_t type_eq_instr[TYPE_COUNT] = {
INSTR_EQ_E, /* should use I */
#if 0
INSTR_EQ_I,
+#else
+ INSTR_EQ_F,
#endif
INSTR_EQ_V, /* variant, should never be accessed */
+
+ AINSTR_END, /* struct */
+ AINSTR_END, /* union */
+ AINSTR_END, /* array */
};
uint16_t type_ne_instr[TYPE_COUNT] = {
INSTR_NE_E, /* should use I */
#if 0
INSTR_NE_I,
+#else
+ INSTR_NE_F,
#endif
INSTR_NE_V, /* variant, should never be accessed */
+
+ AINSTR_END, /* struct */
+ AINSTR_END, /* union */
+ AINSTR_END, /* array */
};
MEM_VEC_FUNCTIONS(ir_value_vector, ir_value*, v)
va_end(ap);
}
+static bool irwarning(lex_ctx ctx, int warntype, const char *fmt, ...)
+{
+ va_list ap;
+ int lvl = LVL_WARNING;
+
+ if (warntype && !OPTS_WARN(warntype))
+ return false;
+
+ if (opts_werror)
+ lvl = LVL_ERROR;
+
+ va_start(ap, fmt);
+ vprintmsg(lvl, ctx.file, ctx.line, "warning", fmt, ap);
+ va_end(ap);
+
+ return opts_werror;
+}
+
/***********************************************************************
*IR Builder
*/
+static void ir_block_delete_quick(ir_block* self);
+static void ir_instr_delete_quick(ir_instr *self);
+static void ir_function_delete_quick(ir_function *self);
+
ir_builder* ir_builder_new(const char *modulename)
{
ir_builder* self;
MEM_VECTOR_INIT(self, functions);
MEM_VECTOR_INIT(self, globals);
MEM_VECTOR_INIT(self, fields);
+ MEM_VECTOR_INIT(self, filenames);
+ MEM_VECTOR_INIT(self, filestrings);
+ self->str_immediate = 0;
self->name = NULL;
if (!ir_builder_set_name(self, modulename)) {
mem_d(self);
return NULL;
}
- /* globals which always exist */
-
- /* for now we give it a vector size */
- ir_builder_create_global(self, "OFS_RETURN", TYPE_VARIANT);
-
return self;
}
-MEM_VEC_FUNCTIONS(ir_builder, ir_value*, globals)
-MEM_VEC_FUNCTIONS(ir_builder, ir_value*, fields)
+MEM_VEC_FUNCTIONS(ir_builder, ir_value*, globals)
+MEM_VEC_FUNCTIONS(ir_builder, ir_value*, fields)
MEM_VEC_FUNCTIONS(ir_builder, ir_function*, functions)
+MEM_VEC_FUNCTIONS(ir_builder, const char*, filenames)
+MEM_VEC_FUNCTIONS(ir_builder, qcint, filestrings)
void ir_builder_delete(ir_builder* self)
{
size_t i;
mem_d((void*)self->name);
for (i = 0; i != self->functions_count; ++i) {
- ir_function_delete(self->functions[i]);
+ ir_function_delete_quick(self->functions[i]);
}
MEM_VECTOR_CLEAR(self, functions);
for (i = 0; i != self->globals_count; ++i) {
ir_value_delete(self->fields[i]);
}
MEM_VECTOR_CLEAR(self, fields);
+ MEM_VECTOR_CLEAR(self, filenames);
+ MEM_VECTOR_CLEAR(self, filestrings);
mem_d(self);
}
if (!self)
return NULL;
+ memset(self, 0, sizeof(*self));
+
self->name = NULL;
if (!ir_function_set_name(self, "<@unnamed>")) {
mem_d(self);
MEM_VECTOR_INIT(self, locals);
self->code_function_def = -1;
+ self->allocated_locals = 0;
self->run_id = 0;
return self;
return !!self->name;
}
+static void ir_function_delete_quick(ir_function *self)
+{
+ size_t i;
+ mem_d((void*)self->name);
+
+ for (i = 0; i != self->blocks_count; ++i)
+ ir_block_delete_quick(self->blocks[i]);
+ MEM_VECTOR_CLEAR(self, blocks);
+
+ MEM_VECTOR_CLEAR(self, params);
+
+ for (i = 0; i != self->values_count; ++i)
+ ir_value_delete(self->values[i]);
+ MEM_VECTOR_CLEAR(self, values);
+
+ for (i = 0; i != self->locals_count; ++i)
+ ir_value_delete(self->locals[i]);
+ MEM_VECTOR_CLEAR(self, locals);
+
+ /* self->value is deleted by the builder */
+
+ mem_d(self);
+}
+
void ir_function_delete(ir_function *self)
{
size_t i;
ir_value* ir_function_create_local(ir_function *self, const char *name, int vtype, bool param)
{
- ir_value *ve = ir_function_get_local(self, name);
- if (ve) {
+ ir_value *ve;
+
+ /*
+ if (ir_function_get_local(self, name))
return NULL;
- }
+ */
if (param &&
self->locals_count &&
self->locals[self->locals_count-1]->store != store_param) {
- irerror(self->context, "cannot add parameters after adding locals\n");
+ irerror(self->context, "cannot add parameters after adding locals");
return NULL;
}
memset(self, 0, sizeof(*self));
self->label = NULL;
- if (!ir_block_set_label(self, name)) {
+ if (name && !ir_block_set_label(self, name)) {
mem_d(self);
return NULL;
}
MEM_VEC_FUNCTIONS_ALL(ir_block, ir_block*, exits)
MEM_VEC_FUNCTIONS_ALL(ir_block, ir_value*, living)
+static void ir_block_delete_quick(ir_block* self)
+{
+ size_t i;
+ if (self->label) mem_d(self->label);
+ for (i = 0; i != self->instr_count; ++i)
+ ir_instr_delete_quick(self->instr[i]);
+ MEM_VECTOR_CLEAR(self, instr);
+ MEM_VECTOR_CLEAR(self, entries);
+ MEM_VECTOR_CLEAR(self, exits);
+ MEM_VECTOR_CLEAR(self, living);
+ mem_d(self);
+}
+
void ir_block_delete(ir_block* self)
{
size_t i;
- mem_d(self->label);
+ if (self->label) mem_d(self->label);
for (i = 0; i != self->instr_count; ++i)
ir_instr_delete(self->instr[i]);
MEM_VECTOR_CLEAR(self, instr);
MEM_VEC_FUNCTIONS(ir_instr, ir_phi_entry_t, phi)
MEM_VEC_FUNCTIONS(ir_instr, ir_value*, params)
+static void ir_instr_delete_quick(ir_instr *self)
+{
+ MEM_VECTOR_CLEAR(self, phi);
+ MEM_VECTOR_CLEAR(self, params);
+ mem_d(self);
+}
+
void ir_instr_delete(ir_instr *self)
{
size_t i;
self->context.file = "<@no context>";
self->context.line = 0;
self->name = NULL;
- ir_value_set_name(self, name);
+ if (name && !ir_value_set_name(self, name)) {
+ irerror(self->context, "out of memory");
+ mem_d(self);
+ return NULL;
+ }
memset(&self->constval, 0, sizeof(self->constval));
memset(&self->code, 0, sizeof(self->code));
self->members[0] = NULL;
self->members[1] = NULL;
self->members[2] = NULL;
+ self->memberof = NULL;
MEM_VECTOR_INIT(self, life);
return self;
}
else
{
- irerror(self->context, "invalid member access on %s\n", self->name);
+ irerror(self->context, "invalid member access on %s", self->name);
return NULL;
}
+ m->memberof = self;
return m;
}
mem_d(self);
}
-void ir_value_set_name(ir_value *self, const char *name)
+bool ir_value_set_name(ir_value *self, const char *name)
{
if (self->name)
mem_d((void*)self->name);
self->name = util_strdup(name);
+ return !!self->name;
}
bool ir_value_set_float(ir_value *self, float f)
return true;
}
+static char *ir_strdup(const char *str)
+{
+ if (str && !*str) {
+ /* actually dup empty strings */
+ char *out = mem_a(1);
+ *out = 0;
+ return out;
+ }
+ return util_strdup(str);
+}
+
bool ir_value_set_string(ir_value *self, const char *str)
{
if (self->vtype != TYPE_STRING)
return false;
- self->constval.vstring = util_strdup(str);
+ self->constval.vstring = ir_strdup(str);
self->isconst = true;
return true;
}
}
if (life->start < entry->start &&
- life->end >= entry->start)
+ life->end+1 >= entry->start)
{
/* starts earlier and overlaps */
entry->start = life->start;
}
- if (life->end > entry->end &&
- life->start-1 <= entry->end)
+ if (life->end > entry->end &&
+ life->start <= entry->end+1)
{
/* ends later and overlaps */
entry->end = life->end;
/* check if the entries overlap, for that,
* both must start before the other one ends.
*/
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- if (la->start <= lb->end &&
- lb->start <= la->end)
-#else
- if (la->start < lb->end &&
- lb->start < la->end)
-#endif
+ if (la->start < lb->end &&
+ lb->start < la->end)
{
return true;
}
if (target->store == store_value &&
(op < INSTR_STOREP_F || op > INSTR_STOREP_FNC))
{
- irerror(self->context, "cannot store to an SSA value\n");
- irerror(self->context, "trying to store: %s <- %s\n", target->name, what->name);
- irerror(self->context, "instruction: %s\n", asm_instr[op].m);
+ irerror(self->context, "cannot store to an SSA value");
+ irerror(self->context, "trying to store: %s <- %s", target->name, what->name);
+ irerror(self->context, "instruction: %s", asm_instr[op].m);
return false;
}
{
ir_instr *in;
if (self->final) {
- irerror(self->context, "block already ended (%s)\n", self->label);
+ irerror(self->context, "block already ended (%s)", self->label);
return false;
}
self->final = true;
{
ir_instr *in;
if (self->final) {
- irerror(self->context, "block already ended (%s)\n", self->label);
+ irerror(self->context, "block already ended (%s)", self->label);
return false;
}
self->final = true;
{
ir_instr *in;
if (self->final) {
- irerror(self->context, "block already ended (%s)\n", self->label);
+ irerror(self->context, "block already ended (%s)", self->label);
return false;
}
self->final = true;
{
ir_instr *in;
if (self->final) {
- irerror(self->context, "block already ended (%s)\n", self->label);
+ irerror(self->context, "block already ended (%s)", self->label);
return false;
}
self->final = true;
/* Must not be possible to cause this, otherwise the AST
* is doing something wrong.
*/
- irerror(self->context, "Invalid entry block for PHI\n");
+ irerror(self->context, "Invalid entry block for PHI");
abort();
}
case TYPE_INTEGER: op = INSTR_LOAD_I; break;
#endif
default:
+ irerror(self->context, "invalid type for ir_block_create_load_from_ent: %s", type_name[outype]);
return NULL;
}
if (l == r) {
switch (l) {
default:
+ irerror(self->context, "invalid type for ir_block_create_add: %s", type_name[l]);
return NULL;
case TYPE_FLOAT:
op = INSTR_ADD_F;
op = INSTR_ADD_IF;
else
#endif
+ {
+ irerror(self->context, "invalid type for ir_block_create_add: %s", type_name[l]);
return NULL;
+ }
}
return ir_block_create_binop(self, label, op, left, right);
}
switch (l) {
default:
+ irerror(self->context, "invalid type for ir_block_create_sub: %s", type_name[l]);
return NULL;
case TYPE_FLOAT:
op = INSTR_SUB_F;
op = INSTR_SUB_IF;
else
#endif
+ {
+ irerror(self->context, "invalid type for ir_block_create_sub: %s", type_name[l]);
return NULL;
+ }
}
return ir_block_create_binop(self, label, op, left, right);
}
switch (l) {
default:
+ irerror(self->context, "invalid type for ir_block_create_mul: %s", type_name[l]);
return NULL;
case TYPE_FLOAT:
op = INSTR_MUL_F;
else if ( (l == TYPE_INTEGER && r == TYPE_FLOAT) )
op = INSTR_MUL_IF;
#endif
- else
+ else {
+ irerror(self->context, "invalid type for ir_block_create_mul: %s", type_name[l]);
return NULL;
+ }
}
return ir_block_create_binop(self, label, op, left, right);
}
switch (l) {
default:
+ irerror(self->context, "invalid type for ir_block_create_div: %s", type_name[l]);
return NULL;
case TYPE_FLOAT:
op = INSTR_DIV_F;
op = INSTR_DIV_IF;
else
#endif
+ {
+ irerror(self->context, "invalid type for ir_block_create_div: %s", type_name[l]);
return NULL;
+ }
}
return ir_block_create_binop(self, label, op, left, right);
}
{
if (self->blocks[i]->is_return)
{
+ self->blocks[i]->living_count = 0;
if (!ir_block_life_propagate(self->blocks[i], NULL, &changed))
return false;
}
}
} while (changed);
+ if (self->blocks_count) {
+ ir_block *block = self->blocks[0];
+ for (i = 0; i < block->living_count; ++i) {
+ ir_value *v = block->living[i];
+ if (v->memberof || v->store != store_local)
+ continue;
+ if (irwarning(v->context, WARN_USED_UNINITIALIZED,
+ "variable `%s` may be used uninitialized in this function", v->name))
+ {
+ return false;
+ }
+ }
+ }
return true;
}
}
}
+ if (!alloc.sizes) {
+ goto cleanup;
+ }
+
/* Adjust slot positions based on sizes */
if (!function_allocator_positions_add(&alloc, 0))
goto error;
tempbool = ir_value_life_merge(self->living[i], eid);
/* debug
if (tempbool)
- irerror(self->context, "block_living_add_instr() value instruction added %s: %i\n", self->living[i]->_name, (int)eid);
+ irerror(self->context, "block_living_add_instr() value instruction added %s: %i", self->living[i]->_name, (int)eid);
*/
changed = changed || tempbool;
}
if (!ir_block_living_add(self, prev->living[i]))
return false;
/*
- irerror(self->contextt from prev: %s\n", self->label, prev->living[i]->_name);
+ irerror(self->contextt from prev: %s", self->label, prev->living[i]->_name);
*/
}
return true;
size_t i, o, p;
/* bitmasks which operands are read from or written to */
size_t read, write;
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- size_t rd;
- new_reads_t new_reads;
-#endif
char dbg_ind[16] = { '#', '0' };
(void)dbg_ind;
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- MEM_VECTOR_INIT(&new_reads, v);
-#endif
-
if (prev)
{
if (!ir_block_life_prop_previous(self, prev, changed))
for (p = 0; p < instr->phi_count; ++p)
{
value = instr->phi[p].value;
-#if ! defined(LIFE_RANGE_WITHOUT_LAST_READ)
+ if (value->memberof)
+ value = value->memberof;
if (!ir_block_living_find(self, value, NULL) &&
!ir_block_living_add(self, value))
{
- goto on_error;
- }
-#else
- if (!new_reads_t_v_find(&new_reads, value, NULL))
- {
- if (!new_reads_t_v_add(&new_reads, value))
- goto on_error;
+ return false;
}
-#endif
}
/* call params are read operands too */
for (p = 0; p < instr->params_count; ++p)
{
value = instr->params[p];
-#if ! defined(LIFE_RANGE_WITHOUT_LAST_READ)
+ if (value->memberof)
+ value = value->memberof;
if (!ir_block_living_find(self, value, NULL) &&
!ir_block_living_add(self, value))
{
- goto on_error;
- }
-#else
- if (!new_reads_t_v_find(&new_reads, value, NULL))
- {
- if (!new_reads_t_v_add(&new_reads, value))
- goto on_error;
+ return false;
}
-#endif
}
/* See which operands are read and write operands */
ir_op_read_write(instr->opcode, &read, &write);
+ if (instr->opcode == INSTR_MUL_VF)
+ {
+ /* the float source will get an additional lifetime */
+ tempbool = ir_value_life_merge(instr->_ops[2], instr->eid+1);
+ *changed = *changed || tempbool;
+ }
+ else if (instr->opcode == INSTR_MUL_FV)
+ {
+ /* the float source will get an additional lifetime */
+ tempbool = ir_value_life_merge(instr->_ops[1], instr->eid+1);
+ *changed = *changed || tempbool;
+ }
+
/* Go through the 3 main operands */
for (o = 0; o < 3; ++o)
{
continue;
value = instr->_ops[o];
+ if (value->memberof)
+ value = value->memberof;
/* We only care about locals */
/* we also calculate parameter liferanges so that locals
/* read operands */
if (read & (1<<o))
{
-#if ! defined(LIFE_RANGE_WITHOUT_LAST_READ)
if (!ir_block_living_find(self, value, NULL) &&
!ir_block_living_add(self, value))
{
- goto on_error;
- }
-#else
- /* fprintf(stderr, "read: %s\n", value->_name); */
- if (!new_reads_t_v_find(&new_reads, value, NULL))
- {
- if (!new_reads_t_v_add(&new_reads, value))
- goto on_error;
+ return false;
}
-#endif
}
/* write operands */
{
size_t idx;
bool in_living = ir_block_living_find(self, value, &idx);
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- size_t readidx;
- bool in_reads = new_reads_t_v_find(&new_reads, value, &readidx);
- if (!in_living && !in_reads)
-#else
if (!in_living)
-#endif
{
/* If the value isn't alive it hasn't been read before... */
/* TODO: See if the warning can be emitted during parsing or AST processing
*/
*changed = *changed || tempbool;
/* Then remove */
-#if ! defined(LIFE_RANGE_WITHOUT_LAST_READ)
if (!ir_block_living_remove(self, idx))
- goto on_error;
-#else
- if (in_reads)
- {
- if (!new_reads_t_v_remove(&new_reads, readidx))
- goto on_error;
- }
-#endif
+ return false;
}
}
}
/*fprintf(stderr, "living added values\n");*/
*changed = *changed || tempbool;
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- /* new reads: */
- for (rd = 0; rd < new_reads.v_count; ++rd)
- {
- if (!ir_block_living_find(self, new_reads.v[rd], NULL)) {
- if (!ir_block_living_add(self, new_reads.v[rd]))
- goto on_error;
- }
- if (!i && !self->entries_count) {
- /* fix the top */
- *changed = *changed || ir_value_life_merge(new_reads.v[rd], instr->eid);
- }
- }
- MEM_VECTOR_CLEAR(&new_reads, v);
-#endif
}
if (self->run_id == self->owner->run_id)
}
return true;
-on_error:
-#if defined(LIFE_RANGE_WITHOUT_LAST_READ)
- MEM_VECTOR_CLEAR(&new_reads, v);
-#endif
- return false;
}
/***********************************************************************
*
* Breaking conventions is annoying...
*/
-static bool ir_builder_gen_global(ir_builder *self, ir_value *global);
+static bool ir_builder_gen_global(ir_builder *self, ir_value *global, bool islocal);
static bool gen_global_field(ir_value *global)
{
{
ir_value *fld = global->constval.vpointer;
if (!fld) {
- irerror(global->context, "Invalid field constant with no field: %s\n", global->name);
+ irerror(global->context, "Invalid field constant with no field: %s", global->name);
return false;
}
* for functions... might as well support that here.
*/
if (!fld->code.globaladdr) {
- irerror(global->context, "FIXME: Relocation support\n");
+ irerror(global->context, "FIXME: Relocation support");
return false;
}
{
ir_value *target = global->constval.vpointer;
if (!target) {
- irerror(global->context, "Invalid pointer constant: %s\n", global->name);
+ irerror(global->context, "Invalid pointer constant: %s", global->name);
/* NULL pointers are pointing to the NULL constant, which also
* sits at address 0, but still has an ir_value for itself.
*/
/* FIXME: Check for the constant nullptr ir_value!
* because then code.globaladdr being 0 is valid.
*/
- irerror(global->context, "FIXME: Relocation support\n");
+ irerror(global->context, "FIXME: Relocation support");
return false;
}
instr = block->instr[i];
if (instr->opcode == VINSTR_PHI) {
- irerror(block->context, "cannot generate virtual instruction (phi)\n");
+ irerror(block->context, "cannot generate virtual instruction (phi)");
return false;
}
stmt.opcode = INSTR_STORE_F;
stmt.o3.u1 = 0;
- stmt.opcode = type_store_instr[param->vtype];
+ if (param->vtype == TYPE_FIELD)
+ stmt.opcode = field_store_instr[param->fieldtype];
+ else
+ stmt.opcode = type_store_instr[param->vtype];
stmt.o1.u1 = ir_value_code_addr(param);
stmt.o2.u1 = OFS_PARM0 + 3 * p;
if (code_statements_add(stmt) < 0)
if (retvalue && retvalue->store != store_return && retvalue->life_count)
{
/* not to be kept in OFS_RETURN */
- stmt.opcode = type_store_instr[retvalue->vtype];
+ if (retvalue->vtype == TYPE_FIELD)
+ stmt.opcode = field_store_instr[retvalue->vtype];
+ else
+ stmt.opcode = type_store_instr[retvalue->vtype];
stmt.o1.u1 = OFS_RETURN;
stmt.o2.u1 = ir_value_code_addr(retvalue);
stmt.o3.u1 = 0;
}
if (instr->opcode == INSTR_STATE) {
- irerror(block->context, "TODO: state instruction\n");
+ irerror(block->context, "TODO: state instruction");
return false;
}
* for now. Dead blocks will not be translated obviously.
*/
if (!self->blocks_count) {
- irerror(self->context, "Function '%s' declared without body.\n", self->name);
+ irerror(self->context, "Function '%s' declared without body.", self->name);
return false;
}
return true;
if (!gen_blocks_recursive(self, block)) {
- irerror(self->context, "failed to generate blocks for '%s'\n", self->name);
+ irerror(self->context, "failed to generate blocks for '%s'", self->name);
return false;
}
return true;
}
+static qcint ir_builder_filestring(ir_builder *ir, const char *filename)
+{
+ /* NOTE: filename pointers are copied, we never strdup them,
+ * thus we can use pointer-comparison to find the string.
+ */
+ size_t i;
+ qcint str;
+
+ for (i = 0; i < ir->filenames_count; ++i) {
+ if (ir->filenames[i] == filename)
+ return ir->filestrings[i];
+ }
+
+ str = code_genstring(filename);
+ if (!ir_builder_filenames_add(ir, filename))
+ return 0;
+ if (!ir_builder_filestrings_add(ir, str))
+ ir->filenames_count--;
+ return str;
+}
+
static bool gen_global_function(ir_builder *ir, ir_value *global)
{
prog_section_function fun;
if (!global->isconst || (!global->constval.vfunc))
{
- irerror(global->context, "Invalid state of function-global: not constant: %s\n", global->name);
+ irerror(global->context, "Invalid state of function-global: not constant: %s", global->name);
return false;
}
irfun = global->constval.vfunc;
fun.name = global->code.name;
- fun.file = code_cachedstring(global->context.file);
+ fun.file = ir_builder_filestring(ir, global->context.file);
fun.profile = 0; /* always 0 */
fun.nargs = irfun->params_count;
}
fun.firstlocal = code_globals_elements;
- fun.locals = irfun->allocated_locals + irfun->locals_count;
local_var_end = fun.firstlocal;
for (i = 0; i < irfun->locals_count; ++i) {
- if (!ir_builder_gen_global(ir, irfun->locals[i])) {
+ if (!ir_builder_gen_global(ir, irfun->locals[i], true)) {
irerror(irfun->locals[i]->context, "Failed to generate local %s", irfun->locals[i]->name);
return false;
}
code_globals_add(0);
}
+ fun.locals = code_globals_elements - fun.firstlocal;
+
if (irfun->builtin)
fun.entry = irfun->builtin;
else {
irfun->code_function_def = code_functions_elements;
fun.entry = code_statements_elements;
- /* done in second pass: gen_global_function_code!
- if (!gen_function_code(irfun)) {
- irerror(irfun->context, "Failed to generate code for function %s", irfun->name);
- return false;
- }
- */
}
return (code_functions_add(fun) >= 0);
ir_function *irfun;
irfun = global->constval.vfunc;
+ if (!irfun) {
+ irwarning(global->context, WARN_IMPLICIT_FUNCTION_POINTER,
+ "function `%s` has no body and in QC implicitly becomes a function-pointer", global->name);
+ /* this was a function pointer, don't generate code for those */
+ return true;
+ }
+
if (irfun->builtin)
return true;
return true;
}
-static bool ir_builder_gen_global(ir_builder *self, ir_value *global)
+static bool ir_builder_gen_global(ir_builder *self, ir_value *global, bool islocal)
{
size_t i;
int32_t *iptr;
def.type = global->vtype;
def.offset = code_globals_elements;
- def.name = global->code.name = code_genstring(global->name);
+
+ if (global->name) {
+ if (global->name[0] == '#') {
+ if (!self->str_immediate)
+ self->str_immediate = code_genstring("IMMEDIATE");
+ def.name = global->code.name = self->str_immediate;
+ }
+ else
+ def.name = global->code.name = code_genstring(global->name);
+ }
+ else
+ def.name = 0;
switch (global->vtype)
{
+ case TYPE_VOID:
+ if (!strcmp(global->name, "end_sys_globals")) {
+ /* TODO: remember this point... all the defs before this one
+ * should be checksummed and added to progdefs.h when we generate it.
+ */
+ }
+ else if (!strcmp(global->name, "end_sys_fields")) {
+ /* TODO: same as above but for entity-fields rather than globsl
+ */
+ }
+ else
+ irwarning(global->context, WARN_VOID_VARIABLES, "unrecognized variable of type void `%s`",
+ global->name);
+ /* I'd argue setting it to 0 is sufficient, but maybe some depend on knowing how far
+ * the system fields actually go? Though the engine knows this anyway...
+ * Maybe this could be an -foption
+ * fteqcc creates data for end_sys_* - of size 1, so let's do the same
+ */
+ ir_value_code_setaddr(global, code_globals_add(0));
+ /* Add the def */
+ if (code_defs_add(def) < 0)
+ return false;
+ return true;
case TYPE_POINTER:
if (code_defs_add(def) < 0)
return false;
/* fall through */
case TYPE_FLOAT:
{
- if (code_defs_add(def) < 0)
- return false;
-
if (global->isconst) {
- iptr = (int32_t*)&global->constval.vfloat;
+ iptr = (int32_t*)&global->constval.ivec[0];
ir_value_code_setaddr(global, code_globals_add(*iptr));
- } else
+ } else {
ir_value_code_setaddr(global, code_globals_add(0));
+ if (!islocal)
+ def.type |= DEF_SAVEGLOBAL;
+ }
+ if (code_defs_add(def) < 0)
+ return false;
return global->code.globaladdr >= 0;
}
case TYPE_STRING:
{
- if (code_defs_add(def) < 0)
- return false;
if (global->isconst)
- ir_value_code_setaddr(global, code_globals_add(code_cachedstring(global->constval.vstring)));
- else
+ ir_value_code_setaddr(global, code_globals_add(code_genstring(global->constval.vstring)));
+ else {
ir_value_code_setaddr(global, code_globals_add(0));
+ if (!islocal)
+ def.type |= DEF_SAVEGLOBAL;
+ }
+ if (code_defs_add(def) < 0)
+ return false;
return global->code.globaladdr >= 0;
}
case TYPE_VECTOR:
{
size_t d;
- if (code_defs_add(def) < 0)
- return false;
-
if (global->isconst) {
- iptr = (int32_t*)&global->constval.vvec;
+ iptr = (int32_t*)&global->constval.ivec[0];
ir_value_code_setaddr(global, code_globals_add(iptr[0]));
if (global->code.globaladdr < 0)
return false;
if (code_globals_add(0) < 0)
return false;
}
+ if (!islocal)
+ def.type |= DEF_SAVEGLOBAL;
}
+
+ if (code_defs_add(def) < 0)
+ return false;
return global->code.globaladdr >= 0;
}
case TYPE_FUNCTION:
+ if (!global->isconst) {
+ ir_value_code_setaddr(global, code_globals_add(0));
+ if (global->code.globaladdr < 0)
+ return false;
+ } else {
+ ir_value_code_setaddr(global, code_globals_elements);
+ code_globals_add(code_functions_elements);
+ if (!gen_global_function(self, global))
+ return false;
+ if (!islocal)
+ def.type |= DEF_SAVEGLOBAL;
+ }
if (code_defs_add(def) < 0)
return false;
- ir_value_code_setaddr(global, code_globals_elements);
- code_globals_add(code_functions_elements);
- return gen_global_function(self, global);
+ return true;
case TYPE_VARIANT:
/* assume biggest type */
ir_value_code_setaddr(global, code_globals_add(0));
return true;
default:
/* refuse to create 'void' type or any other fancy business. */
- irerror(global->context, "Invalid type for global variable %s\n", global->name);
+ irerror(global->context, "Invalid type for global variable `%s`: %s",
+ global->name, type_name[global->vtype]);
return false;
}
}
* bytes is more than enough for a variable/field name
*/
if (len+2 >= sizeof(name)) {
- irerror(field->context, "invalid field name size: %u\n", (unsigned int)len);
+ irerror(field->context, "invalid field name size: %u", (unsigned int)len);
return false;
}
fld.type = field->fieldtype;
if (fld.type == TYPE_VOID) {
- irerror(field->context, "field is missing a type: %s - don't know its size\n", field->name);
+ irerror(field->context, "field is missing a type: %s - don't know its size", field->name);
return false;
}
bool ir_builder_generate(ir_builder *self, const char *filename)
{
+ prog_section_statement stmt;
size_t i;
code_init();
- for (i = 0; i < self->fields_count; ++i)
+ for (i = 0; i < self->globals_count; ++i)
{
- if (!ir_builder_gen_field(self, self->fields[i])) {
+ if (!ir_builder_gen_global(self, self->globals[i], false)) {
return false;
}
}
- for (i = 0; i < self->globals_count; ++i)
+ for (i = 0; i < self->fields_count; ++i)
{
- if (!ir_builder_gen_global(self, self->globals[i])) {
+ if (!ir_builder_gen_field(self, self->fields[i])) {
return false;
}
}
}
}
+ /* DP errors if the last instruction is not an INSTR_DONE
+ * and for debugging purposes we add an additional AINSTR_END
+ * to the end of functions, so here it goes:
+ */
+ stmt.opcode = INSTR_DONE;
+ stmt.o1.u1 = 0;
+ stmt.o2.u1 = 0;
+ stmt.o3.u1 = 0;
+ if (code_statements_add(stmt) < 0)
+ return false;
+
printf("writing '%s'...\n", filename);
return code_write(filename);
}
#ifdef WIN32
# define strncat(dst, src, sz) strncat_s(dst, sz, src, _TRUNCATE)
-#else
-# define strncat strncat
#endif
const char *qc_opname(int op)
oprintf("\n");
}
}
+ oprintf("%sliferanges:\n", ind);
+ for (i = 0; i < f->locals_count; ++i) {
+ size_t l;
+ ir_value *v = f->locals[i];
+ oprintf("%s\t%s: unique ", ind, v->name);
+ for (l = 0; l < v->life_count; ++l) {
+ oprintf("[%i,%i] ", v->life[l].start, v->life[l].end);
+ }
+ oprintf("\n");
+ }
+ for (i = 0; i < f->values_count; ++i) {
+ size_t l;
+ ir_value *v = f->values[i];
+ oprintf("%s\t%s: @%i ", ind, v->name, (int)v->code.local);
+ for (l = 0; l < v->life_count; ++l) {
+ oprintf("[%i,%i] ", v->life[l].start, v->life[l].end);
+ }
+ oprintf("\n");
+ }
if (f->blocks_count)
{
oprintf("%slife passes (check): %i\n", ind, (int)f->run_id);
}
if (in->bops[1])
oprintf("%s[%s]", comma, in->bops[1]->label);
+ if (in->params_count) {
+ oprintf("\tparams: ");
+ for (i = 0; i != in->params_count; ++i) {
+ oprintf("%s, ", in->params[i]->name);
+ }
+ }
oprintf("\n");
ind[strlen(ind)-1] = 0;
}
oprintf("(void)");
break;
case TYPE_FUNCTION:
- oprintf("(function)");
+ oprintf("fn:%s", v->name);
break;
case TYPE_FLOAT:
oprintf("%g", v->constval.vfloat);
}
}
-void ir_value_dump_life(ir_value *self, int (*oprintf)(const char*,...))
+void ir_value_dump_life(const ir_value *self, int (*oprintf)(const char*,...))
{
size_t i;
- oprintf("Life of %s:\n", self->name);
+ oprintf("Life of %12s:", self->name);
for (i = 0; i < self->life_count; ++i)
{
oprintf(" + [%i, %i]\n", self->life[i].start, self->life[i].end);