%extra_argument {PSI_Parser *P}
/* TOKEN is defined inside syntax_error */
%syntax_error {
- PSI_ParserSyntaxError(P, P->fn, P->line, "Unexpected token '%s'", TOKEN->text);
+ if (TOKEN && TOKEN->type != PSI_T_EOF) {
+ PSI_ParserSyntaxError(P, P->psi.file.fn, P->line, "Unexpected token '%s'", TOKEN->text);
+ } else {
+ PSI_ParserSyntaxError(P, P->psi.file.fn, P->line, "Unexpected end of input");
+ }
}
%nonassoc NAME.
+%left PLUS MINUS.
+%left SLASH ASTERISK.
+%fallback NAME TEMP FREE SET LET RETURN LIB INT UNSIGNED.
file ::= blocks.
blocks ::= block.
blocks ::= blocks block.
-block ::= COMMENT.
+block ::= EOF.
block ::= LIB(T) QUOTED_STRING(libname) EOS. {
- if (P->lib) {
- PSI_ParserSyntaxError(P, P->fn, T->line, "Extra 'lib %s' statement has no effect", libname->text);
+ if (P->psi.file.ln) {
+ PSI_ParserSyntaxError(P, P->psi.file.ln, T->line, "Extra 'lib %s' statement has no effect", libname->text);
} else {
- P->lib = strndup(libname->text + 1, libname->size - 2);
+ P->psi.file.ln = strndup(libname->text + 1, libname->size - 2);
}
free(libname);
free(T);
%type decl_struct {decl_struct*}
%destructor decl_struct {free_decl_struct($$);}
-decl_struct(strct) ::= STRUCT NAME(N) LBRACE struct_args(args) RBRACE. {
+decl_struct(strct) ::= STRUCT NAME(N) struct_size(size_) LBRACE struct_args(args) RBRACE. {
strct = init_decl_struct(N->text, args);
+ strct->size = size_;
free(N);
}
-%type const_type {const_type*}
-%destructor const_type {free_const_type($$);}
-const_type(type_) ::= BOOL(T). {
- type_ = init_const_type(T->type, T->text);
- free(T);
+%type struct_size {size_t}
+struct_size(size) ::= . {
+ size = 0;
}
-const_type(type_) ::= INT(T). {
- type_ = init_const_type(T->type, T->text);
- free(T);
-}
-const_type(type_) ::= FLOAT(T). {
- type_ = init_const_type(T->type, T->text);
- free(T);
+struct_size(size) ::= COLON COLON LPAREN NUMBER(SIZ) RPAREN. {
+ size = atol(SIZ->text);
+ free(SIZ);
}
-const_type(type_) ::= STRING(T). {
+
+%token_class const_type_token BOOL INT FLOAT STRING.
+%type const_type {const_type*}
+%destructor const_type {free_const_type($$);}
+const_type(type_) ::= const_type_token(T). {
type_ = init_const_type(T->type, T->text);
free(T);
}
def = init_decl_typedef(ALIAS->text, type);
free(ALIAS);
}
+/* support opaque types */
+decl_typedef(def) ::= TYPEDEF VOID(V) NAME(ALIAS) EOS. {
+ def = init_decl_typedef(ALIAS->text, init_decl_type(V->type, V->text));
+ free(V);
+ free(ALIAS);
+}
decl_typedef(def) ::= TYPEDEF STRUCT(S) NAME(N) NAME(ALIAS) EOS. {
def = init_decl_typedef(ALIAS->text, init_decl_type(S->type, N->text));
free(ALIAS);
%type decl {decl*}
%destructor decl {free_decl($$);}
-decl(decl) ::= decl_abi(abi) decl_arg(func) LPAREN decl_args(args) RPAREN EOS. {
+decl(decl) ::= decl_abi(abi) decl_func(func) LPAREN decl_args(args) RPAREN EOS. {
decl = init_decl(abi, func, args);
}
+%type decl_func {decl_arg*}
+%destructor decl_func {free_decl_arg($$);}
+decl_func(func) ::= decl_arg(arg). {
+ func = arg;
+}
+/* special case for void functions */
+decl_func(func) ::= VOID(T) NAME(N). {
+ func = init_decl_arg(
+ init_decl_type(T->type, T->text),
+ init_decl_var(N->text, 0, 0)
+ );
+ free(T);
+ free(N);
+}
+
%type decl_abi {decl_abi*}
%destructor decl_abi {free_decl_abi($$);}
decl_abi(abi) ::= NAME(T). {
%type decl_var {decl_var*}
%destructor decl_var {free_decl_var($$);}
-decl_var(var) ::= NAME(T). {
- var = init_decl_var(T->text, 0, 0);
- free(T);
-}
-decl_var(var) ::= pointers(p) NAME(T). {
+decl_var(var) ::= indirection(p) NAME(T). {
var = init_decl_var(T->text, p, 0);
free(T);
}
-decl_var(var) ::= NAME(T) LBRACKET NUMBER(D) RBRACKET. {
- var = init_decl_var(T->text, 1, atol(D->text));
- free(T);
- free(D);
-}
-decl_var(var) ::= pointers(p) NAME(T) LBRACKET NUMBER(D) RBRACKET. {
+decl_var(var) ::= indirection(p) NAME(T) LBRACKET NUMBER(D) RBRACKET. {
var = init_decl_var(T->text, p+1, atol(D->text));
free(T);
free(D);
%type decl_arg {decl_arg*}
%destructor decl_arg {free_decl_arg($$);}
-decl_arg(arg_) ::= decl_type(type) decl_var(var). {
- arg_ = var->arg = init_decl_arg(type, var);
+decl_arg(arg_) ::= const_decl_type(type) decl_var(var). {
+ arg_ = init_decl_arg(type, var);
+}
+/* void pointers need a specific rule */
+decl_arg(arg_) ::= VOID(T) pointers(p) NAME(N). {
+ arg_ = init_decl_arg(
+ init_decl_type(T->type, T->text),
+ init_decl_var(N->text, p, 0)
+ );
+ free(T);
+ free(N);
+}
+decl_arg(arg_) ::= CONST VOID(T) pointers(p) NAME(N). {
+ arg_ = init_decl_arg(
+ init_decl_type(T->type, T->text),
+ init_decl_var(N->text, p, 0)
+ );
+ free(T);
+ free(N);
}
%type decl_args {decl_args*}
%destructor decl_args {free_decl_args($$);}
+decl_args ::= .
decl_args ::= VOID.
decl_args(args) ::= decl_arg(arg). {
args = init_decl_args(arg);
}
%type struct_args {decl_args*}
%destructor struct_args {free_decl_args($$);}
-struct_args(args) ::= decl_arg(arg) EOS. {
+struct_args(args) ::= struct_arg(arg). {
args = init_decl_args(arg);
}
-struct_args(args) ::= struct_args(args_) decl_arg(arg) EOS. {
+struct_args(args) ::= struct_args(args_) struct_arg(arg). {
args = add_decl_arg(args_, arg);
}
+%type struct_arg {decl_arg*}
+%destructor struct_arg {free_decl_arg($$);}
+struct_arg(arg) ::= decl_arg(arg_) struct_layout(layout_) EOS. {
+ arg_->layout = layout_;
+ arg = arg_;
+}
+%type struct_layout {decl_struct_layout*}
+%destructor struct_layout {free_decl_struct_layout($$);}
+struct_layout(layout) ::= . {
+ layout = NULL;
+}
+struct_layout(layout) ::= COLON COLON LPAREN NUMBER(POS) COMMA NUMBER(SIZ) RPAREN. {
+ layout = init_decl_struct_layout(atol(POS->text), atol(SIZ->text));
+ free(POS);
+ free(SIZ);
+}
+
+%token_class decl_type_token FLOAT DOUBLE INT8 UINT8 INT16 UINT16 INT32 UINT32 INT64 UINT64 NAME.
%type decl_type {decl_type*}
%destructor decl_type {free_decl_type($$);}
-decl_type(type_) ::= VOID(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= CHAR(T). {
+decl_type(type_) ::= decl_type_token(T). {
type_ = init_decl_type(T->type, T->text);
free(T);
}
-decl_type(type_) ::= SHORT(T). {
+/* unsigned, urgh */
+decl_type(type_) ::= UNSIGNED NAME(T). {
type_ = init_decl_type(T->type, T->text);
- free(T);
+ type_->name = realloc(type_->name, T->size + sizeof("unsigned"));
+ memmove(type_->name + sizeof("unsigned"), type_->name, T->size);
+ memcpy(type_->name, "unsigned", sizeof("unsigned")-1);
+ type_->name[sizeof("unsigned")] = ' ';
+ type_->name[T->size + sizeof("unsigned")] = 0;
}
+/* we have to support plain int here because we have it in our lexer rules */
decl_type(type_) ::= INT(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= LONG(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= FLOAT(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= DOUBLE(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= SIZE_T(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= INT8(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= UINT8(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= INT16(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= UINT16(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= INT32(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= UINT32(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= INT64(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= UINT64(T). {
- type_ = init_decl_type(T->type, T->text);
- free(T);
-}
-decl_type(type_) ::= NAME(T). {
- type_ = init_decl_type(T->type, T->text);
+ type_ = init_decl_type(PSI_T_NAME, T->text);
free(T);
}
+/* structs ! */
decl_type(type_) ::= STRUCT(S) NAME(T). {
type_ = init_decl_type(S->type, T->text);
free(S);
free(T);
}
+%type const_decl_type {decl_type*}
+%destructor const_decl_type {free_decl_type($$);}
+const_decl_type(type) ::= decl_type(type_). {
+ type = type_;
+}
+const_decl_type(type) ::= CONST decl_type(type_). {
+ type = type_;
+}
+
%type impl {impl*}
%destructor impl {free_impl($$);}
impl(impl) ::= impl_func(func) LBRACE impl_stmts(stmts) RBRACE. {
func = init_impl_func(NAME->text, args, type, 0);
free(NAME);
}
-impl_func(func) ::= FUNCTION REFERENCE NSNAME(NAME) impl_args(args) COLON impl_type(type). {
+impl_func(func) ::= FUNCTION AMPERSAND NSNAME(NAME) impl_args(args) COLON impl_type(type). {
func = init_impl_func(NAME->text, args, type, 1);
free(NAME);
}
+%token_class impl_def_val_token NULL NUMBER TRUE FALSE QUOTED_STRING.
%type impl_def_val {impl_def_val*}
%destructor impl_def_val {free_impl_def_val($$);}
-impl_def_val(def) ::= NULL(T). {
- def = init_impl_def_val(T->type, T->text);
- free(T);
-}
-impl_def_val(def) ::= NUMBER(T). {
- def = init_impl_def_val(T->type, T->text);
- free(T);
-}
-impl_def_val(def) ::= TRUE(T). {
- def = init_impl_def_val(T->type, T->text);
- free(T);
-}
-impl_def_val(def) ::= FALSE(T). {
- def = init_impl_def_val(T->type, T->text);
- free(T);
-}
-impl_def_val(def) ::= QUOTED_STRING(T). {
+impl_def_val(def) ::= impl_def_val_token(T). {
def = init_impl_def_val(T->type, T->text);
free(T);
}
var = init_impl_var(T->text, 0);
free(T);
}
-impl_var(var) ::= REFERENCE DOLLAR NAME(T). {
+impl_var(var) ::= AMPERSAND DOLLAR NAME(T). {
var = init_impl_var(T->text, 1);
free(T);
}
stmt = init_impl_stmt(PSI_T_FREE, free);
}
+%token_class num_exp_token NUMBER NSNAME.
+%token_class num_exp_op_token PLUS MINUS ASTERISK SLASH.
+%type num_exp {num_exp*}
+%destructor num_exp {free_num_exp($$);}
+num_exp(exp) ::= num_exp_token(tok). {
+ exp = init_num_exp(tok->type, tok->text);
+ free(tok);
+}
+num_exp(exp) ::= decl_var(var). {
+ exp = init_num_exp(PSI_T_NAME, var);
+}
+num_exp(exp) ::= num_exp(exp_) num_exp_op_token(operator_) num_exp(operand_). {
+ exp_->operator = operator_->type;
+ exp_->operand = operand_;
+ exp = exp_;
+ free(operator_);
+}
+
%type let_stmt {let_stmt*}
%destructor let_stmt {free_let_stmt($$);}
let_stmt(let) ::= LET decl_var(var) EOS. {
- let = init_let_stmt(var, NULL);
-}
-let_stmt(let) ::= LET decl_var(var) EQUALS let_value(val) EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_NULL, NULL));
+}/*
+let_stmt(let) ::= LET decl_var(var) EQUALS let_val(val) EOS. {
+ let = init_let_stmt(var, val);
+}*/
+let_stmt(let) ::= LET decl_var(var) EQUALS reference(r) let_val(val) EOS. {
+ val->flags.one.is_reference = r ? 1 : 0;
let = init_let_stmt(var, val);
}
+let_stmt(let) ::= TEMP decl_var(var) EQUALS decl_var(val) EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_TMP, val));
+}
-%type let_value {let_value*}
-%destructor let_value {free_let_value($$);}
-let_value(val) ::= CALLOC(F) LPAREN NUMBER(N) COMMA decl_type(t) RPAREN. {
- val = init_let_value(
- init_let_func(F->type, F->text,
- init_let_calloc(
- atol(N->text), t
- )
- ), NULL, 0
- );
- free(F);
- free(N);
+%type let_val {let_val*}
+%destructor let_val {free_let_val($$);}
+let_val(val) ::= NULL. {
+ val = init_let_val(PSI_LET_NULL, NULL);
}
-let_value(val) ::= let_func(func) LPAREN impl_var(var) RPAREN. {
- val = init_let_value(func, var, 0);
+let_val(val) ::= num_exp(exp). {
+ val = init_let_val(PSI_LET_NUMEXP, exp);
}
-let_value(val) ::= REFERENCE let_func(func) LPAREN impl_var(var) RPAREN. {
- val = init_let_value(func, var, 1);
+let_val(val) ::= CALLOC LPAREN let_calloc(alloc) RPAREN. {
+ val = init_let_val(PSI_LET_CALLOC, alloc);
}
-let_value(val) ::= REFERENCE NULL. {
- val = init_let_value(NULL, NULL, 1);
+let_val(val) ::= let_func(func). {
+ val = init_let_val(PSI_LET_FUNC, func);
}
-let_value(val) ::= NULL. {
- val = init_let_value(NULL, NULL, 0);
+/*
+let_stmt(let) ::= LET decl_var(var) EQUALS reference(r) NULL EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_NULL, NULL, r?PSI_LET_REFERENCE:0));
}
-
-%type let_func {let_func*}
-%destructor let_func {free_let_func($$);}
-let_func(func) ::= STRLEN(T). {
- func = init_let_func(T->type, T->text, NULL);
- free(T);
+let_stmt(let) ::= LET decl_var(var) EQUALS reference(r) num_exp(exp) EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_NUMEXP, exp, r?PSI_LET_REFERENCE:0));
}
-let_func(func) ::= STRVAL(T). {
- func = init_let_func(T->type, T->text, NULL);
- free(T);
+let_stmt(let) ::= LET decl_var(var) EQUALS reference(r) CALLOC LPAREN let_calloc(alloc) RPAREN EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_CALLOC, alloc, r?PSI_LET_REFERENCE:0));
}
-let_func(func) ::= INTVAL(T). {
- func = init_let_func(T->type, T->text, NULL);
- free(T);
+let_stmt(let) ::= LET decl_var(var) EQUALS reference(r) let_func(func) EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_FUNC, func, r?PSI_LET_REFERENCE:0));
}
-let_func(func) ::= FLOATVAL(T). {
- func = init_let_func(T->type, T->text, NULL);
- free(T);
+let_stmt(let) ::= LET decl_var(var) EQUALS decl_var(val) EOS. {
+ let = init_let_stmt(var, init_let_val(PSI_LET_VAR, val, 0));
}
-let_func(func) ::= BOOLVAL(T). {
- func = init_let_func(T->type, T->text, NULL);
- free(T);
+*/
+%type let_calloc {let_calloc*}
+%destructor let_calloc {free_let_calloc($$);}
+let_calloc(alloc) ::= num_exp(nmemb) COMMA num_exp(size). {
+ alloc = init_let_calloc(nmemb, size);
}
-let_func(func) ::= ARRVAL(T). {
- func = init_let_func(T->type, T->text, NULL);
+%token_class let_func_token OBJVAL ARRVAL PATHVAL STRLEN STRVAL FLOATVAL INTVAL BOOLVAL.
+%type let_func {let_func*}
+%destructor let_func {free_let_func($$);}
+let_func(func) ::= let_func_token(T) LPAREN impl_var(var) RPAREN. {
+ func = init_let_func(T->type, T->text, var);
free(T);
}
+
%type set_stmt {set_stmt*}
%destructor set_stmt {free_set_stmt($$);}
set_stmt(set) ::= SET impl_var(var) EQUALS set_value(val) EOS. {
%type set_value {set_value*}
%destructor set_value {free_set_value($$);}
-set_value(val) ::= set_func(func) LPAREN decl_vars(vars) RPAREN. {
- val = init_set_value(func, vars);
+set_value(val) ::= set_func(func) LPAREN decl_var(var) RPAREN. {
+ val = init_set_value(func, init_decl_vars(var));
}
-
-%type set_func {set_func*}
-%destructor set_func {free_set_func($$);}
-set_func(func) ::= TO_ARRAY(T). {
- func = init_set_func(T->type, T->text);
- free(T);
+set_value(val) ::= set_func(func) LPAREN decl_var(var) COMMA num_exp(num_) RPAREN. {
+ val = init_set_value(func, init_decl_vars(var));
+ val->num = num_;
}
-set_func(func) ::= TO_STRING(T). {
- func = init_set_func(T->type, T->text);
- free(T);
+set_value(val) ::= set_func(func_) LPAREN decl_var(var) COMMA set_vals(vals) RPAREN. {
+ val = vals;
+ val->func = func_;
+ val->vars = init_decl_vars(var);
}
-set_func(func) ::= TO_INT(T). {
- func = init_set_func(T->type, T->text);
- free(T);
+set_value(val) ::= set_func(func_) LPAREN decl_var(var) COMMA num_exp(num_) COMMA set_vals(vals) RPAREN. {
+ val = vals;
+ val->func = func_;
+ val->num = num_;
+ val->vars = init_decl_vars(var);
}
-set_func(func) ::= TO_FLOAT(T). {
- func = init_set_func(T->type, T->text);
- free(T);
+%type set_vals {set_value*}
+%destructor set_vals {free_set_value($$);}
+set_vals(vals) ::= set_value(val). {
+ vals = add_inner_set_value(init_set_value(NULL, NULL), val);
}
-set_func(func) ::= TO_BOOL(T). {
- func = init_set_func(T->type, T->text);
- free(T);
+set_vals(vals) ::= set_vals(vals_) COMMA set_value(val). {
+ vals = add_inner_set_value(vals_, val);
}
-set_func(func) ::= VOID(T). {
+
+%token_class set_func_token TO_OBJECT TO_ARRAY TO_STRING TO_INT TO_FLOAT TO_BOOL VOID.
+%type set_func {set_func*}
+%destructor set_func {free_set_func($$);}
+set_func(func) ::= set_func_token(T). {
func = init_set_func(T->type, T->text);
free(T);
}
%type return_stmt {return_stmt*}
%destructor return_stmt {free_return_stmt($$);}
-return_stmt(ret) ::= RETURN set_func(func) LPAREN decl_var(var) RPAREN EOS. {
- ret = init_return_stmt(func, var);
+return_stmt(ret) ::= RETURN set_value(val) EOS. {
+ ret = init_return_stmt(val);
}
%type free_stmt {free_stmt*}
%destructor free_stmt {free_free_stmt($$);}
-free_stmt(free) ::= FREE decl_vars(vars) EOS. {
- free = init_free_stmt(vars);
+free_stmt(free) ::= FREE free_calls(calls) EOS. {
+ free = init_free_stmt(calls);
}
-%type impl_type {impl_type*}
-%destructor impl_type {free_impl_type($$);}
-impl_type(type_) ::= VOID(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
+%type free_calls {free_calls*}
+%destructor free_calls {free_free_calls($$);}
+free_calls(calls) ::= free_call(call). {
+ calls = init_free_calls(call);
}
-impl_type(type_) ::= MIXED(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
-}
-impl_type(type_) ::= BOOL(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
+free_calls(calls) ::= free_calls(calls_) COMMA free_call(call). {
+ calls = add_free_call(calls_, call);
}
-impl_type(type_) ::= INT(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
-}
-impl_type(type_) ::= FLOAT(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
-}
-impl_type(type_) ::= STRING(T). {
- type_ = init_impl_type(T->type, T->text);
- free(T);
+
+%type free_call {free_call*}
+%destructor free_call {free_free_call($$);}
+free_call(call) ::= NAME(F) LPAREN decl_vars(vars) RPAREN. {
+ call = init_free_call(F->text, vars);
}
-impl_type(type_) ::= ARRAY(T). {
+
+%token_class impl_type_token VOID MIXED BOOL INT FLOAT STRING ARRAY OBJECT.
+%type impl_type {impl_type*}
+%destructor impl_type {free_impl_type($$);}
+impl_type(type_) ::= impl_type_token(T). {
type_ = init_impl_type(T->type, T->text);
free(T);
}
+%type reference {char}
+reference(r) ::= . {r = 0;}
+reference(r) ::= AMPERSAND. {r = 1;}
+
+%type indirection {unsigned}
+indirection(i) ::= . {i = 0;}
+indirection(i) ::= pointers(p). {i = p;}
+
%type pointers {unsigned}
-pointers(p) ::= POINTER. {++p;}
-pointers(p) ::= pointers(P) POINTER. {p = P+1;}
+pointers(p) ::= ASTERISK. {p = 1;}
+pointers(p) ::= pointers(P) ASTERISK. {p = P+1;}