static KMETHOD Statement_for(KonohaContext *kctx, KonohaStack *sfp)
{
VAR_Statement(stmt, gma);
DBG_P("for statement .. ");
int isOkay = false;
if(SUGAR kStmt_TypeCheckByName(kctx, stmt, KW_ExprPattern, gma, CT_INFER, 0)) {
kNameSpace *ns = Stmt_ns(stmt);
kToken *TypeToken = SUGAR kStmt_GetToken(kctx, stmt, KW_TypePattern, NULL);
kToken *VariableToken = SUGAR kStmt_GetToken(kctx, stmt, KW_SymbolPattern, NULL);
DBG_P("typeToken=%p, varToken=%p", TypeToken, VariableToken);
kExpr *IteratorExpr = SUGAR kStmt_GetExpr(kctx, stmt, KW_ExprPattern, NULL);
if(!TY_isIterator(IteratorExpr->attrTypeId)) {
kMethod *mtd = KLIB kNameSpace_GetMethodByParamSizeNULL(kctx, ns, CT_(IteratorExpr->attrTypeId), MN_to(TY_Iterator), 0, MethodMatch_NoOption);
if(mtd == NULL) {
kStmtExpr_Message(kctx, stmt, IteratorExpr, ErrTag, "expected Iterator expression after in");
KReturnUnboxValue(false);
}
IteratorExpr = SUGAR new_TypedCallExpr(kctx, stmt, gma, CT_INFER, mtd, 1, IteratorExpr);
kStmt_setObject(kctx, stmt, KW_ExprPattern, IteratorExpr);
}
kBlock *block = new_MacroBlock(kctx, stmt, new_TypeToken(kctx, ns, CT_(IteratorExpr->attrTypeId)), new_ParsedExprToken(kctx, ns, IteratorExpr), TypeToken, VariableToken);
kStmt *IfStmt = block->StmtList->StmtItems[1]; // @see macro;
kStmt_appendBlock(kctx, IfStmt, SUGAR kStmt_GetBlock(kctx, stmt, ns, KW_BlockPattern, NULL));
kStmt_Set(CatchBreak, IfStmt, true);
kStmt_Set(CatchContinue, IfStmt, true);
isOkay = SUGAR kBlock_TypeCheckAll(kctx, block, gma);
if(isOkay) {
kStmt_typed(IfStmt, LOOP);
kStmt_setObject(kctx, stmt, KW_BlockPattern, block);
kStmt_typed(stmt, BLOCK);
}
}
KReturnUnboxValue(isOkay);
}
static KMETHOD Statement_ConstDecl(KonohaContext *kctx, KonohaStack *sfp)
{
VAR_Statement(stmt, gma);
kNameSpace *ns = Stmt_ns(stmt);
kToken *SymbolToken = SUGAR kStmt_GetToken(kctx, stmt, KW_SymbolPattern, NULL);
ksymbol_t unboxKey = SymbolToken->resolvedSymbol;
kbool_t result = SUGAR kStmt_TypeCheckByName(kctx, stmt, KW_ExprPattern, gma, TY_var, TypeCheckPolicy_CONST);
if(result) {
kExpr *ConstExpr = SUGAR kStmt_GetExpr(kctx, stmt, KW_ExprPattern, NULL);
ktype_t type = ConstExpr->ty;
uintptr_t unboxValue;
result = false;
if(ConstExpr->build == TEXPR_NULL) { // const C = String
type = VirtualType_KonohaClass;
unboxValue = (uintptr_t)(CT_(ConstExpr->ty));
result = true;
}
else if(ConstExpr->build == TEXPR_CONST) { // const C = "1"
unboxValue = (uintptr_t)ConstExpr->objectConstValue;
result = true;
}
else if(ConstExpr->build == TEXPR_NCONST) { // const c = 1
unboxValue = ConstExpr->unboxConstValue;
result = true;
}
if(result) {
KMakeTraceUL(trace, sfp, stmt->uline);
result = KLIB kNameSpace_SetConstData(kctx, ns, unboxKey, type, unboxValue, trace);
}
else {
kStmt_Message(kctx, stmt, ErrTag, "constant value is expected: %s%s", PSYM_t(unboxKey));
}
}
kStmt_done(kctx, stmt);
KReturnUnboxValue(result);
}
//## boolean Stmt.TypeCheckExpr(symbol key, Gamma gma, cid typeId, int pol);
static KMETHOD Stmt_TypeCheckExprPol(KonohaContext *kctx, KonohaStack *sfp)
{
ksymbol_t key = (ksymbol_t)sfp[1].intValue;
KReturnUnboxValue(SUGAR kStmt_TypeCheckByName(kctx, sfp[0].asStmt, key, sfp[2].asGamma, (ktype_t)sfp[3].intValue, (int)sfp[4].intValue));
}
static KMETHOD Statement_import(KonohaContext *kctx, KonohaStack *sfp)
{
int ret = false;
VAR_Statement(stmt, gma);
kTokenArray *tokenList = (kTokenArray *) kStmt_GetObjectNULL(kctx, stmt, KW_TokenPattern);
if(tokenList == NULL) {
KReturnUnboxValue(false);
}
kNameSpace *ns = Stmt_ns(stmt);
SugarSyntaxVar *syn = (SugarSyntaxVar *) SYN_(ns, KW_ExprMethodCall);
kExpr *expr;
kTokenVar *tkImport = /*G*/new_(TokenVar, 0, OnGcStack);
tkImport->resolvedSymbol = MN_("import");
if(IS_Token(tokenList)) {
kTokenArray *list = ((kToken *) tokenList)->subTokenList;
if(IS_String(list)) {
/* case: import cstyle; */
kString *pkgname = (kString *) list;
expr = CreateImportCall(kctx, syn, tkImport, ns, pkgname);
}
else if(kArray_size(list) == 1) {
/* case : import("konoha.import"); */
kExpr *param0 = makeStringConstValue(kctx, list->TokenItems[0]->text);
expr = SUGAR new_UntypedCallStyleExpr(kctx, syn, 3,
tkImport, new_ConstValueExpr(kctx, O_ct(ns), UPCAST(ns)), param0);
}
else if(kArray_size(list) == 2) {
/* case : import("konoha.import", "import"); */
kExpr *param0 = makeStringConstValue(kctx, list->TokenItems[0]->text);
kExpr *param1 = makeStringConstValue(kctx, list->TokenItems[1]->text);
expr = SUGAR new_UntypedCallStyleExpr(kctx, syn, 4,
tkImport, new_ConstValueExpr(kctx, O_ct(ns), UPCAST(ns)),
param0, param1);
} else {
KReturnUnboxValue(false);
}
} else {
KGrowingBuffer wb;
KLIB KBuffer_Init(&(kctx->stack->cwb), &wb);
/* case : import konoha.import */
ksymbol_t star = SYM_("*");
size_t i = 0;
if(i + 2 < kArray_size(tokenList)) {
for (; i < kArray_size(tokenList)-1; i+=2) {
/* name . */
kToken *tk = tokenList->TokenItems[i+0];
if(i+2 < kArray_size(tokenList)) {
kToken *startTk = tokenList->TokenItems[i+2];
if(startTk->resolvedSyntaxInfo->keyword == star) {
break;
}
}
KLIB KBuffer_Write(kctx, &wb, S_text(tk->text), S_size(tk->text));
KLIB KBuffer_Write(kctx, &wb, ".", 1);
}
}
kString *name = tokenList->TokenItems[i]->text;
KLIB KBuffer_Write(kctx, &wb, S_text(name), S_size(name));
kString *pkgname = KLIB new_kString(kctx, OnGcStack, KLIB KBuffer_Stringfy(kctx, &wb, 1), KBuffer_bytesize(&wb), 0);
expr = CreateImportCall(kctx, syn, tkImport, ns, pkgname);
}
KLIB kObjectProto_SetObject(kctx, stmt, KW_ExprPattern, TY_Expr, expr);
ret = SUGAR kStmt_TypeCheckByName(kctx, stmt, KW_ExprPattern, gma, CT_void, TypeCheckPolicy_ALLOWVOID);
if(ret) {
kStmt_typed(stmt, EXPR);
}
KReturnUnboxValue(ret);
}
