support inline assembly expressions with return type

2024-11-27 15:42:49 +00:00 · 2015-12-15 00:46:56 -07:00 · 2015-12-15 00:46:56 -07:00 · a292eb8d64
commit a292eb8d64
parent 66ca916805
6 changed files with 64 additions and 27 deletions
--- a/doc/langref.md
+++ b/doc/langref.md
@ -84,7 +84,7 @@ AsmOutput : token(Colon) list(AsmOutputItem, token(Comma)) option(AsmInput)

 AsmInput : token(Colon) list(AsmInputItem, token(Comma)) option(AsmClobbers)

-AsmOutputItem : token(LBracket) token(Symbol) token(RBracket) token(String) token(LParen) token(Symbol) token(RParen)
+AsmOutputItem : token(LBracket) token(Symbol) token(RBracket) token(String) token(LParen) (token(Symbol) | token(Return) Type) token(RParen)

 AsmInputItem : token(LBracket) token(Symbol) token(RBracket) token(String) token(LParen) Expression token(RParen)

--- a/src/analyze.cpp
+++ b/src/analyze.cpp
@ -1233,16 +1233,27 @@ static TypeTableEntry * analyze_expression(CodeGen *g, ImportTableEntry *import,
            }
        case NodeTypeAsmExpr:
            {
+                node->data.asm_expr.return_count = 0;
+                return_type = g->builtin_types.entry_void;
                for (int i = 0; i < node->data.asm_expr.output_list.length; i += 1) {
                    AsmOutput *asm_output = node->data.asm_expr.output_list.at(i);
-                    analyze_variable_name(g, import, context, node, &asm_output->variable_name);
+                    if (asm_output->return_type) {
+                        node->data.asm_expr.return_count += 1;
+                        return_type = resolve_type(g, asm_output->return_type);
+                        if (node->data.asm_expr.return_count > 1) {
+                            add_node_error(g, node,
+                                buf_sprintf("inline assembly allows up to one output value"));
+                            break;
+                        }
+                    } else {
+                        analyze_variable_name(g, import, context, node, &asm_output->variable_name);
+                    }
                }
                for (int i = 0; i < node->data.asm_expr.input_list.length; i += 1) {
                    AsmInput *asm_input = node->data.asm_expr.input_list.at(i);
                    analyze_expression(g, import, context, nullptr, asm_input->expr);
                }

-                return_type = g->builtin_types.entry_void;
                break;
            }
        case NodeTypeBinOpExpr:
--- a/src/codegen.cpp
+++ b/src/codegen.cpp
@ -790,33 +790,45 @@ static LLVMValueRef gen_asm_expr(CodeGen *g, AstNode *node) {

    Buf constraint_buf = BUF_INIT;
    buf_resize(&constraint_buf, 0);
+
+    assert(asm_expr->return_count == 0 || asm_expr->return_count == 1);
+
    int total_constraint_count = asm_expr->output_list.length +
                                 asm_expr->input_list.length +
                                 asm_expr->clobber_list.length;
    int input_and_output_count = asm_expr->output_list.length +
-                                 asm_expr->input_list.length;
+                                 asm_expr->input_list.length -
+                                 asm_expr->return_count;
    int total_index = 0;
+    int param_index = 0;
    LLVMTypeRef *param_types = allocate<LLVMTypeRef>(input_and_output_count);
    LLVMValueRef *param_values = allocate<LLVMValueRef>(input_and_output_count);
    for (int i = 0; i < asm_expr->output_list.length; i += 1, total_index += 1) {
        AsmOutput *asm_output = asm_expr->output_list.at(i);
+        bool is_return = false;
        if (buf_eql_str(&asm_output->constraint, "=m")) {
            buf_append_str(&constraint_buf, "=*m");
+        } else if (buf_eql_str(&asm_output->constraint, "=r")) {
+            buf_append_str(&constraint_buf, "=r");
+            is_return = true;
        } else {
-            zig_panic("TODO unable to handle anything other than '=m' for outputs");
+            zig_panic("TODO unable to handle anything other than '=m' and '=r' for outputs");
        }
        if (total_index + 1 < total_constraint_count) {
            buf_append_char(&constraint_buf, ',');
        }

-        VariableTableEntry *variable = find_variable(
-                node->codegen_node->expr_node.block_context,
-                &asm_output->variable_name);
-        assert(variable);
-        param_types[total_index] = LLVMTypeOf(variable->value_ref);
-        param_values[total_index] = variable->value_ref;
+        if (!is_return) {
+            VariableTableEntry *variable = find_variable(
+                    node->codegen_node->expr_node.block_context,
+                    &asm_output->variable_name);
+            assert(variable);
+            param_types[param_index] = LLVMTypeOf(variable->value_ref);
+            param_values[param_index] = variable->value_ref;
+            param_index += 1;
+        }
    }
-    for (int i = 0; i < asm_expr->input_list.length; i += 1, total_index += 1) {
+    for (int i = 0; i < asm_expr->input_list.length; i += 1, total_index += 1, param_index += 1) {
        AsmInput *asm_input = asm_expr->input_list.at(i);
        buf_append_buf(&constraint_buf, &asm_input->constraint);
        if (total_index + 1 < total_constraint_count) {
@ -824,8 +836,8 @@ static LLVMValueRef gen_asm_expr(CodeGen *g, AstNode *node) {
        }

        TypeTableEntry *expr_type = get_expr_type(asm_input->expr);
-        param_types[total_index] = expr_type->type_ref;
-        param_values[total_index] = gen_expr(g, asm_input->expr);
+        param_types[param_index] = expr_type->type_ref;
+        param_values[param_index] = gen_expr(g, asm_input->expr);
    }
    for (int i = 0; i < asm_expr->clobber_list.length; i += 1, total_index += 1) {
        Buf *clobber_buf = asm_expr->clobber_list.at(i);
@ -835,7 +847,13 @@ static LLVMValueRef gen_asm_expr(CodeGen *g, AstNode *node) {
        }
    }

-    LLVMTypeRef function_type = LLVMFunctionType(LLVMVoidType(), param_types, input_and_output_count, false);
+    LLVMTypeRef ret_type;
+    if (asm_expr->return_count == 0) {
+        ret_type = LLVMVoidType();
+    } else {
+        ret_type = get_expr_type(node)->type_ref;
+    }
+    LLVMTypeRef function_type = LLVMFunctionType(ret_type, param_types, input_and_output_count, false);

    bool is_volatile = asm_expr->is_volatile || (asm_expr->output_list.length == 0);
    LLVMValueRef asm_fn = LLVMConstInlineAsm(function_type, buf_ptr(&llvm_template),
--- a/src/parser.cpp
+++ b/src/parser.cpp
@ -1731,7 +1731,7 @@ static void ast_parse_asm_input_item(ParseContext *pc, int *token_index, AstNode
 }

 /*
-AsmOutputItem : token(LBracket) token(Symbol) token(RBracket) token(String) token(LParen) token(Symbol) token(RParen)
+AsmOutputItem : token(LBracket) token(Symbol) token(RBracket) token(String) token(LParen) (token(Symbol) | token(Return) Type) token(RParen)
 */
 static void ast_parse_asm_output_item(ParseContext *pc, int *token_index, AstNode *node) {
    ast_eat_token(pc, token_index, TokenIdLBracket);
@ -1740,14 +1740,24 @@ static void ast_parse_asm_output_item(ParseContext *pc, int *token_index, AstNod

    Token *constraint = ast_eat_token(pc, token_index, TokenIdStringLiteral);

+    AsmOutput *asm_output = allocate<AsmOutput>(1);
+
    ast_eat_token(pc, token_index, TokenIdLParen);
-    Token *out_symbol = ast_eat_token(pc, token_index, TokenIdSymbol);
+
+    Token *token = &pc->tokens->at(*token_index);
+    *token_index += 1;
+    if (token->id == TokenIdSymbol) {
+        ast_buf_from_token(pc, token, &asm_output->variable_name);
+    } else if (token->id == TokenIdKeywordReturn) {
+        asm_output->return_type = ast_parse_type(pc, token_index);
+    } else {
+        ast_invalid_token_error(pc, token);
+    }
+
    ast_eat_token(pc, token_index, TokenIdRParen);

-    AsmOutput *asm_output = allocate<AsmOutput>(1);
    ast_buf_from_token(pc, alias, &asm_output->asm_symbolic_name);
    parse_string_literal(pc, constraint, &asm_output->constraint, nullptr, nullptr);
-    ast_buf_from_token(pc, out_symbol, &asm_output->variable_name);
    node->data.asm_expr.output_list.append(asm_output);
 }

--- a/src/parser.hpp
+++ b/src/parser.hpp
@ -228,6 +228,7 @@ struct AsmOutput {
    Buf asm_symbolic_name;
    Buf constraint;
    Buf variable_name;
+    AstNode *return_type; // null unless "=r" and return
 };

 struct AsmInput {
@ -249,6 +250,7 @@ struct AstNodeAsmExpr {
    ZigList<AsmOutput*> output_list;
    ZigList<AsmInput*> input_list;
    ZigList<Buf*> clobber_list;
+    int return_count; // populated by analyze
 };

 struct AstNodeStructDecl {
--- a/std/std.zig
+++ b/std/std.zig
@ -3,20 +3,17 @@ const SYS_exit : isize = 60;
 const stdout_fileno : isize = 1;

 fn syscall1(number: isize, arg1: isize) -> isize {
-    var result : isize;
    asm volatile ("
        mov %[number], %%rax
        mov %[arg1], %%rdi
        syscall
        mov %%rax, %[ret]"
-        : [ret] "=m" (result)
+        : [ret] "=r" (return isize)
        : [number] "r" (number), [arg1] "r" (arg1)
-        : "rcx", "r11", "rax", "rdi");
-    return result;
+        : "rcx", "r11", "rax", "rdi")
 }

 fn syscall3(number: isize, arg1: isize, arg2: isize, arg3: isize) -> isize {
-    var result : isize;
    asm volatile ("
        mov %[number], %%rax
        mov %[arg1], %%rdi
@ -24,10 +21,9 @@ fn syscall3(number: isize, arg1: isize, arg2: isize, arg3: isize) -> isize {
        mov %[arg3], %%rdx
        syscall
        mov %%rax, %[ret]"
-        : [ret] "=m" (result)
+        : [ret] "=r" (return isize)
        : [number] "r" (number), [arg1] "r" (arg1), [arg2] "r" (arg2), [arg3] "r" (arg3)
-        : "rcx", "r11", "rax", "rdi", "rsi", "rdx");
-    return result;
+        : "rcx", "r11", "rax", "rdi", "rsi", "rdx")
 }

 pub fn write(fd: isize, buf: &const u8, count: usize) -> isize {