self->expression.codegen = codegen;
self->expression.vtype = TYPE_VOID;
self->expression.next = NULL;
+ MEM_VECTOR_INIT(&self->expression, params);
}
static void ast_expression_delete(ast_expression *self)
{
+ size_t i;
if (self->expression.next)
ast_delete(self->expression.next);
+ for (i = 0; i < self->expression.params_count; ++i) {
+ ast_delete(self->expression.params[i]);
+ }
+ MEM_VECTOR_CLEAR(&self->expression, params);
}
static void ast_expression_delete_full(ast_expression *self)
mem_d(self);
}
+MEM_VEC_FUNCTIONS(ast_expression_common, ast_value*, params)
+
+static ast_expression* ast_type_copy(lex_ctx ctx, const ast_expression *ex);
+static ast_value* ast_value_copy(const ast_value *self)
+{
+ ast_value *cp = ast_value_new(self->expression.node.context, self->name, self->expression.vtype);
+ if (self->expression.next) {
+ cp->expression.next = ast_type_copy(self->expression.node.context, self->expression.next);
+ if (!cp->expression.next) {
+ ast_value_delete(cp);
+ return NULL;
+ }
+ }
+ return cp;
+}
+
static ast_expression* ast_type_copy(lex_ctx ctx, const ast_expression *ex)
{
- const ast_expression_common *cpex;
+ size_t i;
+ const ast_expression_common *fromex;
ast_expression_common *selfex;
if (!ex)
{
ast_instantiate(ast_expression, ctx, ast_expression_delete_full);
- cpex = &ex->expression;
+ fromex = &ex->expression;
selfex = &self->expression;
- selfex->vtype = cpex->vtype;
- if (cpex->next)
+ /* This may never be codegen()d */
+ selfex->codegen = NULL;
+
+ selfex->vtype = fromex->vtype;
+ if (fromex->next)
{
- selfex->next = ast_type_copy(ctx, cpex->next);
+ selfex->next = ast_type_copy(ctx, fromex->next);
if (!selfex->next) {
- mem_d(self);
+ ast_expression_delete_full(self);
return NULL;
}
}
else
selfex->next = NULL;
- /* This may never be codegen()d */
- selfex->codegen = NULL;
+ for (i = 0; i < fromex->params_count; ++i) {
+ ast_value *v = ast_value_copy(fromex->params[i]);
+ if (!v || !ast_expression_common_params_add(selfex, v)) {
+ ast_expression_delete_full(self);
+ return NULL;
+ }
+ }
+
return self;
}
}
self->name = name ? util_strdup(name) : NULL;
self->expression.vtype = t;
self->expression.next = NULL;
- MEM_VECTOR_INIT(self, params);
self->isconst = false;
memset(&self->constval, 0, sizeof(self->constval));
return self;
}
-MEM_VEC_FUNCTIONS(ast_value, ast_value*, params)
void ast_value_delete(ast_value* self)
{
- size_t i;
if (self->name)
mem_d((void*)self->name);
- for (i = 0; i < self->params_count; ++i)
- ast_value_delete(self->params[i]); /* delete, the ast_function is expected to die first */
- MEM_VECTOR_CLEAR(self, params);
if (self->isconst) {
switch (self->expression.vtype)
{
mem_d(self);
}
+bool GMQCC_WARN ast_value_params_add(ast_value *self, ast_value *p)
+{
+ return ast_expression_common_params_add(&self->expression, p);
+}
+
bool ast_value_set_name(ast_value *self, const char *name)
{
if (self->name)
mem_d(self);
}
+ast_unary* ast_unary_new(lex_ctx ctx, int op,
+ ast_expression *expr)
+{
+ ast_instantiate(ast_unary, ctx, ast_unary_delete);
+ ast_expression_init((ast_expression*)self, (ast_expression_codegen*)&ast_unary_codegen);
+
+ self->op = op;
+ self->operand = expr;
+
+ return self;
+}
+
+void ast_unary_delete(ast_unary *self)
+{
+ ast_unref(self->operand);
+ ast_expression_delete((ast_expression*)self);
+ mem_d(self);
+}
+
+ast_return* ast_return_new(lex_ctx ctx, ast_expression *expr)
+{
+ ast_instantiate(ast_return, ctx, ast_return_delete);
+ ast_expression_init((ast_expression*)self, (ast_expression_codegen*)&ast_return_codegen);
+
+ self->operand = expr;
+
+ return self;
+}
+
+void ast_return_delete(ast_return *self)
+{
+ ast_unref(self->operand);
+ ast_expression_delete((ast_expression*)self);
+ mem_d(self);
+}
+
ast_entfield* ast_entfield_new(lex_ctx ctx, ast_expression *entity, ast_expression *field)
{
const ast_expression *outtype;
mem_d(self);
}
+ast_call* ast_call_new(lex_ctx ctx,
+ ast_expression *funcexpr)
+{
+ ast_instantiate(ast_call, ctx, ast_call_delete);
+ ast_expression_init((ast_expression*)self, (ast_expression_codegen*)&ast_call_codegen);
+
+ MEM_VECTOR_INIT(self, params);
+
+ self->func = funcexpr;
+
+ return self;
+}
+MEM_VEC_FUNCTIONS(ast_call, ast_expression*, params)
+
+void ast_call_delete(ast_call *self)
+{
+ size_t i;
+ for (i = 0; i < self->params_count; ++i)
+ ast_unref(self->params[i]);
+ MEM_VECTOR_CLEAR(self, params);
+
+ if (self->func)
+ ast_unref(self->func);
+
+ ast_expression_delete((ast_expression*)self);
+ mem_d(self);
+}
+
ast_store* ast_store_new(lex_ctx ctx, int op,
ast_value *dest, ast_expression *source)
{
mem_d(self);
}
+bool ast_block_set_type(ast_block *self, ast_expression *from)
+{
+ if (self->expression.next)
+ ast_delete(self->expression.next);
+ self->expression.vtype = from->expression.vtype;
+ if (from->expression.next) {
+ self->expression.next = ast_type_copy(self->expression.node.context, from->expression.next);
+ if (!self->expression.next)
+ return false;
+ }
+ return true;
+}
+
ast_function* ast_function_new(lex_ctx ctx, const char *name, ast_value *vtype)
{
ast_instantiate(ast_function, ctx, ast_function_delete);
MEM_VECTOR_INIT(self, blocks);
self->labelcount = 0;
+ self->builtin = 0;
self->ir_func = NULL;
self->curblock = NULL;
* and the ast-user should take care of ast_global_codegen to be used
* on all the globals.
*/
- if (!self->ir_v)
+ if (!self->ir_v) {
+ printf("ast_value used before generated (%s)\n", self->name);
return false;
+ }
*out = self->ir_v;
return true;
}
ir_value *v = NULL;
if (self->isconst && self->expression.vtype == TYPE_FUNCTION)
{
- ir_function *func = ir_builder_create_function(ir, self->name);
+ ir_function *func = ir_builder_create_function(ir, self->name, self->expression.next->expression.vtype);
if (!func)
return false;
self->constval.vfunc->ir_func = func;
+ self->ir_v = func->value;
/* The function is filled later on ast_function_codegen... */
return true;
}
goto error;
break;
case TYPE_FUNCTION:
+ printf("global of type function not properly generated\n");
+ goto error;
/* Cannot generate an IR value for a function,
* need a pointer pointing to a function rather.
*/
- goto error;
default:
printf("TODO: global constant type %i\n", self->expression.vtype);
break;
return false;
}
-bool ast_local_codegen(ast_value *self, ir_function *func)
+bool ast_local_codegen(ast_value *self, ir_function *func, bool param)
{
ir_value *v = NULL;
if (self->isconst && self->expression.vtype == TYPE_FUNCTION)
return false;
}
- v = ir_function_create_local(func, self->name, self->expression.vtype);
+ v = ir_function_create_local(func, self->name, self->expression.vtype, param);
if (!v)
return false;
{
ir_function *irf;
ir_value *dummy;
+ ast_expression_common *ec;
size_t i;
irf = self->ir_func;
return false;
}
+ /* fill the parameter list */
+ ec = &self->vtype->expression;
+ for (i = 0; i < ec->params_count; ++i)
+ {
+ if (!ir_function_params_add(irf, ec->params[i]->expression.vtype))
+ return false;
+ if (!self->builtin) {
+ if (!ast_local_codegen(ec->params[i], self->ir_func, true))
+ return false;
+ }
+ }
+
+ if (self->builtin) {
+ irf->builtin = self->builtin;
+ return true;
+ }
+
self->curblock = ir_function_create_block(irf, "entry");
if (!self->curblock)
return false;
{
if (!self->vtype->expression.next ||
self->vtype->expression.next->expression.vtype == TYPE_VOID)
+ {
return ir_block_create_return(self->curblock, NULL);
+ }
else
{
/* error("missing return"); */
/* generate locals */
for (i = 0; i < self->locals_count; ++i)
{
- if (!ast_local_codegen(self->locals[i], func->ir_func))
+ if (!ast_local_codegen(self->locals[i], func->ir_func, false))
return false;
}
return true;
}
+bool ast_unary_codegen(ast_unary *self, ast_function *func, bool lvalue, ir_value **out)
+{
+ ast_expression_codegen *cgen;
+ ir_value *operand;
+
+ /* In the context of a unary operation, we can disregard
+ * the lvalue flag.
+ */
+ (void)lvalue;
+
+ cgen = self->operand->expression.codegen;
+ /* lvalue! */
+ if (!(*cgen)((ast_expression*)(self->operand), func, false, &operand))
+ return false;
+
+ *out = ir_block_create_unary(func->curblock, ast_function_label(func, "unary"),
+ self->op, operand);
+ if (!*out)
+ return false;
+
+ return true;
+}
+
+bool ast_return_codegen(ast_return *self, ast_function *func, bool lvalue, ir_value **out)
+{
+ ast_expression_codegen *cgen;
+ ir_value *operand;
+
+ /* In the context of a return operation, we can disregard
+ * the lvalue flag.
+ */
+ (void)lvalue;
+
+ cgen = self->operand->expression.codegen;
+ /* lvalue! */
+ if (!(*cgen)((ast_expression*)(self->operand), func, false, &operand))
+ return false;
+
+ if (!ir_block_create_return(func->curblock, operand))
+ return false;
+
+ return true;
+}
+
bool ast_entfield_codegen(ast_entfield *self, ast_function *func, bool lvalue, ir_value **out)
{
ast_expression_codegen *cgen;
return false;
} else
ontrue = NULL;
-
+
/* on-false path */
if (self->on_false) {
/* create on-false block */
/* Merge block were they all merge in to */
merge = ir_function_create_block(func->ir_func, ast_function_label(func, "endif"));
if (!merge)
- return NULL;
+ return false;
/* add jumps ot the merge block */
if (ontrue && !ir_block_create_jump(ontrue, merge))
return false;
/* In the following, contraty to ast_ifthen, we assume both paths exist. */
-
+
/* generate the condition */
func->curblock = cond;
cgen = self->cond->expression.codegen;
if (!(*cgen)((ast_expression*)(self->on_true), func, false, &trueval))
return false;
}
-
+
/* create on-false block */
onfalse = ir_function_create_block(func->ir_func, ast_function_label(func, "tern_F"));
if (!onfalse)
/* create merge block */
merge = ir_function_create_block(func->ir_func, ast_function_label(func, "tern_out"));
if (!merge)
- return NULL;
+ return false;
/* jump to merge block */
if (!ir_block_create_jump(ontrue, merge))
return false;
return true;
}
+
+bool ast_call_codegen(ast_call *self, ast_function *func, bool lvalue, ir_value **out)
+{
+ ast_expression_codegen *cgen;
+ ir_value_vector params;
+ ir_instr *callinstr;
+ size_t i;
+
+ ir_value *funval = NULL;
+
+ /* return values are never rvalues */
+ (void)lvalue;
+
+ cgen = self->func->expression.codegen;
+ if (!(*cgen)((ast_expression*)(self->func), func, false, &funval))
+ return false;
+ if (!funval)
+ return false;
+
+ MEM_VECTOR_INIT(¶ms, v);
+
+ /* parameters */
+ for (i = 0; i < self->params_count; ++i)
+ {
+ ir_value *param;
+ ast_expression *expr = self->params[i];
+
+ cgen = expr->expression.codegen;
+ if (!(*cgen)(expr, func, false, ¶m))
+ goto error;
+ if (!param)
+ goto error;
+ if (!ir_value_vector_v_add(¶ms, param))
+ goto error;
+ }
+
+ callinstr = ir_block_create_call(func->curblock, ast_function_label(func, "call"), funval);
+ if (!callinstr)
+ goto error;
+
+ for (i = 0; i < params.v_count; ++i) {
+ if (!ir_call_param(callinstr, params.v[i]))
+ goto error;
+ }
+
+ *out = ir_call_value(callinstr);
+
+ MEM_VECTOR_CLEAR(¶ms, v);
+ return true;
+error:
+ MEM_VECTOR_CLEAR(¶ms, v);
+ return false;
+}