codegen for calling an async function

See #727
master
Andrew Kelley 2018-02-25 02:47:31 -05:00
parent 40dbcd09da
commit 05bf666eb6
3 changed files with 49 additions and 9 deletions

View File

@ -986,20 +986,25 @@ TypeTableEntry *get_fn_type(CodeGen *g, FnTypeId *fn_type_id) {
if (!skip_debug_info) {
bool first_arg_return = calling_convention_does_first_arg_return(fn_type_id->cc) &&
handle_is_ptr(fn_type_id->return_type);
bool is_async = fn_type_id->cc == CallingConventionAsync;
bool prefix_arg_error_return_trace = g->have_err_ret_tracing &&
(fn_type_id->return_type->id == TypeTableEntryIdErrorUnion ||
fn_type_id->return_type->id == TypeTableEntryIdErrorSet);
// +1 for maybe making the first argument the return value
// +1 for maybe last argument the error return trace
LLVMTypeRef *gen_param_types = allocate<LLVMTypeRef>(2 + fn_type_id->param_count);
// +1 for maybe first argument the error return trace
// +2 for maybe arguments async allocator and error code pointer
LLVMTypeRef *gen_param_types = allocate<LLVMTypeRef>(4 + fn_type_id->param_count);
// +1 because 0 is the return type and
// +1 for maybe making first arg ret val and
// +1 for maybe last argument the error return trace
ZigLLVMDIType **param_di_types = allocate<ZigLLVMDIType*>(3 + fn_type_id->param_count);
// +1 for maybe first argument the error return trace
// +2 for maybe arguments async allocator and error code pointer
ZigLLVMDIType **param_di_types = allocate<ZigLLVMDIType*>(5 + fn_type_id->param_count);
param_di_types[0] = fn_type_id->return_type->di_type;
size_t gen_param_index = 0;
TypeTableEntry *gen_return_type;
if (!type_has_bits(fn_type_id->return_type)) {
if (is_async) {
gen_return_type = get_pointer_to_type(g, g->builtin_types.entry_u8, false);
} else if (!type_has_bits(fn_type_id->return_type)) {
gen_return_type = g->builtin_types.entry_void;
} else if (first_arg_return) {
TypeTableEntry *gen_type = get_pointer_to_type(g, fn_type_id->return_type, false);
@ -1020,6 +1025,25 @@ TypeTableEntry *get_fn_type(CodeGen *g, FnTypeId *fn_type_id) {
// after the gen_param_index += 1 because 0 is the return type
param_di_types[gen_param_index] = gen_type->di_type;
}
if (is_async) {
{
// async allocator param
TypeTableEntry *gen_type = fn_type_id->async_allocator_type;
gen_param_types[gen_param_index] = gen_type->type_ref;
gen_param_index += 1;
// after the gen_param_index += 1 because 0 is the return type
param_di_types[gen_param_index] = gen_type->di_type;
}
{
// error code pointer
TypeTableEntry *gen_type = get_pointer_to_type(g, g->builtin_types.entry_global_error_set, false);
gen_param_types[gen_param_index] = gen_type->type_ref;
gen_param_index += 1;
// after the gen_param_index += 1 because 0 is the return type
param_di_types[gen_param_index] = gen_type->di_type;
}
}
fn_type->data.fn.gen_param_info = allocate<FnGenParamInfo>(fn_type_id->param_count);
for (size_t i = 0; i < fn_type_id->param_count; i += 1) {

View File

@ -2521,13 +2521,12 @@ static LLVMValueRef ir_render_call(CodeGen *g, IrExecutable *executable, IrInstr
}
FnTypeId *fn_type_id = &fn_type->data.fn.fn_type_id;
if (fn_type_id->cc == CallingConventionAsync) {
zig_panic("TODO codegen async function call");
}
TypeTableEntry *src_return_type = fn_type_id->return_type;
bool ret_has_bits = type_has_bits(src_return_type);
bool first_arg_ret = ret_has_bits && handle_is_ptr(src_return_type);
bool first_arg_ret = ret_has_bits && handle_is_ptr(src_return_type) &&
calling_convention_does_first_arg_return(fn_type->data.fn.fn_type_id.cc);
bool prefix_arg_err_ret_stack = g->have_err_ret_tracing && (src_return_type->id == TypeTableEntryIdErrorUnion || src_return_type->id == TypeTableEntryIdErrorSet);
size_t actual_param_count = instruction->arg_count + (first_arg_ret ? 1 : 0) + (prefix_arg_err_ret_stack ? 1 : 0);
bool is_var_args = fn_type_id->is_var_args;
@ -2541,6 +2540,15 @@ static LLVMValueRef ir_render_call(CodeGen *g, IrExecutable *executable, IrInstr
gen_param_values[gen_param_index] = g->cur_err_ret_trace_val;
gen_param_index += 1;
}
if (instruction->is_async) {
gen_param_values[gen_param_index] = ir_llvm_value(g, instruction->async_allocator);
gen_param_index += 1;
LLVMValueRef err_val_ptr = LLVMBuildStructGEP(g->builder, instruction->tmp_ptr, err_union_err_index, "");
LLVMBuildStore(g->builder, LLVMConstNull(g->builtin_types.entry_global_error_set->type_ref), err_val_ptr);
gen_param_values[gen_param_index] = err_val_ptr;
gen_param_index += 1;
}
for (size_t call_i = 0; call_i < instruction->arg_count; call_i += 1) {
IrInstruction *param_instruction = instruction->args[call_i];
TypeTableEntry *param_type = param_instruction->value.type;
@ -2578,6 +2586,12 @@ static LLVMValueRef ir_render_call(CodeGen *g, IrExecutable *executable, IrInstr
}
}
if (instruction->is_async) {
LLVMValueRef payload_ptr = LLVMBuildStructGEP(g->builder, instruction->tmp_ptr, err_union_payload_index, "");
LLVMBuildStore(g->builder, result, payload_ptr);
return instruction->tmp_ptr;
}
if (src_return_type->id == TypeTableEntryIdUnreachable) {
return LLVMBuildUnreachable(g->builder);
} else if (!ret_has_bits) {

View File

@ -11775,6 +11775,7 @@ static TypeTableEntry *ir_analyze_fn_call(IrAnalyze *ira, IrInstructionCall *cal
if (call_instruction->is_async) {
IrInstruction *result = ir_analyze_async_call(ira, call_instruction, impl_fn, impl_fn->type_entry, fn_ref, casted_args, impl_param_count, async_allocator_inst);
ir_link_new_instruction(result, &call_instruction->base);
ir_add_alloca(ira, result, result->value.type);
return ir_finish_anal(ira, result->value.type);
}
@ -11862,6 +11863,7 @@ static TypeTableEntry *ir_analyze_fn_call(IrAnalyze *ira, IrInstructionCall *cal
IrInstruction *result = ir_analyze_async_call(ira, call_instruction, fn_entry, fn_type, fn_ref, casted_args, call_param_count, async_allocator_inst);
ir_link_new_instruction(result, &call_instruction->base);
ir_add_alloca(ira, result, result->value.type);
return ir_finish_anal(ira, result->value.type);
}