picoc/parse.c

/* picoc parser - parses source and executes statements */

#include "picoc.h"
#include "interpreter.h"

#ifdef DEBUGGER
static int gEnableDebugger = true;
#else
static int gEnableDebugger = false;
#endif


/* deallocate any memory */
void ParseCleanup(Picoc *pc)
{
    while (pc->CleanupTokenList != NULL) {
        struct CleanupTokenNode *Next = pc->CleanupTokenList->Next;

        HeapFreeMem(pc, pc->CleanupTokenList->Tokens);
        if (pc->CleanupTokenList->SourceText != NULL)
            HeapFreeMem(pc, (void *)pc->CleanupTokenList->SourceText);

        HeapFreeMem(pc, pc->CleanupTokenList);
        pc->CleanupTokenList = Next;
    }
}

/* parse a statement, but only run it if Condition is true */
enum ParseResult ParseStatementMaybeRun(struct ParseState *Parser,
        int Condition, int CheckTrailingSemicolon)
{
    if (Parser->Mode != RunModeSkip && !Condition) {
        enum RunMode OldMode = Parser->Mode;
        int Result;
        Parser->Mode = RunModeSkip;
        Result = ParseStatement(Parser, CheckTrailingSemicolon);
        Parser->Mode = OldMode;
        return Result;
    } else
        return ParseStatement(Parser, CheckTrailingSemicolon);
}

/* count the number of parameters to a function or macro */
int ParseCountParams(struct ParseState *Parser)
{
    int ParamCount = 0;

    enum LexToken Token = LexGetToken(Parser, NULL, true);
    if (Token != TokenCloseBracket && Token != TokenEOF) {
        /* count the number of parameters */
        ParamCount++;
        while ((Token = LexGetToken(Parser, NULL, true)) !=
                TokenCloseBracket && Token != TokenEOF) {
            if (Token == TokenComma)
                ParamCount++;
        }
    }

    return ParamCount;
}

/* parse a function definition and store it for later */
struct Value *ParseFunctionDefinition(struct ParseState *Parser,
        struct ValueType *ReturnType, char *Identifier)
{
    int ParamCount = 0;
    char *ParamIdentifier;
    enum LexToken Token = TokenNone;
    struct ValueType *ParamType;
    struct ParseState ParamParser;
    struct Value *FuncValue;
    struct Value *OldFuncValue;
    struct ParseState FuncBody;
    Picoc *pc = Parser->pc;

    if (pc->TopStackFrame != NULL)
        ProgramFail(Parser, "nested function definitions are not allowed");

    LexGetToken(Parser, NULL, true);  /* open bracket */
    ParserCopy(&ParamParser, Parser);
    ParamCount = ParseCountParams(Parser);
    if (ParamCount > PARAMETER_MAX)
        ProgramFail(Parser, "too many parameters (%d allowed)", PARAMETER_MAX);

    FuncValue = VariableAllocValueAndData(pc, Parser,
        sizeof(struct FuncDef)+sizeof(struct ValueType*)*ParamCount+sizeof(const char*)*ParamCount,
        false, NULL, true);
    FuncValue->Typ = &pc->FunctionType;
    FuncValue->Val->FuncDef.ReturnType = ReturnType;
    FuncValue->Val->FuncDef.NumParams = ParamCount;
    FuncValue->Val->FuncDef.VarArgs = false;
    FuncValue->Val->FuncDef.ParamType =
        (struct ValueType**)((char*)FuncValue->Val+sizeof(struct FuncDef));
    FuncValue->Val->FuncDef.ParamName =
        (char**)((char*)FuncValue->Val->FuncDef.ParamType+sizeof(struct ValueType*)*ParamCount);

    for (ParamCount = 0; ParamCount < FuncValue->Val->FuncDef.NumParams; ParamCount++) {
        /* harvest the parameters into the function definition */
        if (ParamCount == FuncValue->Val->FuncDef.NumParams-1 &&
                LexGetToken(&ParamParser, NULL, false) == TokenEllipsis) {
            /* ellipsis at end */
            FuncValue->Val->FuncDef.NumParams--;
            FuncValue->Val->FuncDef.VarArgs = true;
            break;
        } else {
            /* add a parameter */
            TypeParse(&ParamParser, &ParamType, &ParamIdentifier, NULL);
            if (ParamType->Base == TypeVoid) {
                /* this isn't a real parameter at all - delete it */
                ParamCount--;
                FuncValue->Val->FuncDef.NumParams--;
            } else {
                FuncValue->Val->FuncDef.ParamType[ParamCount] = ParamType;
                FuncValue->Val->FuncDef.ParamName[ParamCount] = ParamIdentifier;
            }
        }

        Token = LexGetToken(&ParamParser, NULL, true);
        if (Token != TokenComma && ParamCount < FuncValue->Val->FuncDef.NumParams-1)
            ProgramFail(&ParamParser, "comma expected");
    }

    if (FuncValue->Val->FuncDef.NumParams != 0 && Token != TokenCloseBracket &&
            Token != TokenComma && Token != TokenEllipsis)
        ProgramFail(&ParamParser, "bad parameter");

    if (strcmp(Identifier, "main") == 0) {
        /* make sure it's int main() */
        if ( FuncValue->Val->FuncDef.ReturnType != &pc->IntType &&
             FuncValue->Val->FuncDef.ReturnType != &pc->VoidType )
            ProgramFail(Parser, "main() should return an int or void");

        if (FuncValue->Val->FuncDef.NumParams != 0 &&
             (FuncValue->Val->FuncDef.NumParams != 2 ||
                FuncValue->Val->FuncDef.ParamType[0] != &pc->IntType) )
            ProgramFail(Parser, "bad parameters to main()");
    }

    /* look for a function body */
    Token = LexGetToken(Parser, NULL, false);
    if (Token == TokenSemicolon)
        LexGetToken(Parser, NULL, true);  /* it's a prototype, absorb the trailing semicolon */
    else {
        /* it's a full function definition with a body */
        if (Token != TokenLeftBrace)
            ProgramFail(Parser, "bad function definition");

        ParserCopy(&FuncBody, Parser);
        if (ParseStatementMaybeRun(Parser, false, true) != ParseResultOk)
            ProgramFail(Parser, "function definition expected");

        FuncValue->Val->FuncDef.Body = FuncBody;
        FuncValue->Val->FuncDef.Body.Pos = LexCopyTokens(&FuncBody, Parser);

        /* is this function already in the global table? */
        if (TableGet(&pc->GlobalTable, Identifier, &OldFuncValue, NULL, NULL, NULL)) {
            if (OldFuncValue->Val->FuncDef.Body.Pos == NULL) {
                /* override an old function prototype */
                VariableFree(pc, TableDelete(pc, &pc->GlobalTable, Identifier));
            } else
                ProgramFail(Parser, "'%s' is already defined", Identifier);
        }
    }

    if (!TableSet(pc, &pc->GlobalTable, Identifier, FuncValue,
                (char*)Parser->FileName, Parser->Line, Parser->CharacterPos))
        ProgramFail(Parser, "'%s' is already defined", Identifier);

    return FuncValue;
}

/* parse an array initialiser and assign to a variable */
int ParseArrayInitialiser(struct ParseState *Parser, struct Value *NewVariable,
    int DoAssignment)
{
    int ArrayIndex = 0;
    enum LexToken Token;
    struct Value *CValue;

    /* count the number of elements in the array */
    if (DoAssignment && Parser->Mode == RunModeRun) {
        struct ParseState CountParser;
        int NumElements;

        ParserCopy(&CountParser, Parser);
        NumElements = ParseArrayInitialiser(&CountParser, NewVariable, false);

        if (NewVariable->Typ->Base != TypeArray)
            AssignFail(Parser, "%t from array initializer", NewVariable->Typ,
                NULL, 0, 0, NULL, 0);

        if (NewVariable->Typ->ArraySize == 0) {
            NewVariable->Typ = TypeGetMatching(Parser->pc, Parser,
                NewVariable->Typ->FromType, NewVariable->Typ->Base, NumElements,
                NewVariable->Typ->Identifier, true);
            VariableRealloc(Parser, NewVariable, TypeSizeValue(NewVariable, false));
        }
#ifdef DEBUG_ARRAY_INITIALIZER
        PRINT_SOURCE_POS();
        printf("array size: %d \n", NewVariable->Typ->ArraySize);
#endif
    }

    /* parse the array initialiser */
    Token = LexGetToken(Parser, NULL, false);
    while (Token != TokenRightBrace) {
        if (LexGetToken(Parser, NULL, false) == TokenLeftBrace) {
            /* this is a sub-array initialiser */
            int SubArraySize = 0;
            struct Value *SubArray = NewVariable;
            if (Parser->Mode == RunModeRun && DoAssignment) {
                SubArraySize = TypeSize(NewVariable->Typ->FromType,
                    NewVariable->Typ->FromType->ArraySize, true);
                SubArray = VariableAllocValueFromExistingData(Parser,
                    NewVariable->Typ->FromType,
                    (union AnyValue*)(&NewVariable->Val->ArrayMem[0]+SubArraySize*ArrayIndex),
                    true, NewVariable);
#ifdef DEBUG_ARRAY_INITIALIZER
                int FullArraySize = TypeSize(NewVariable->Typ,
                    NewVariable->Typ->ArraySize, true);
                PRINT_SOURCE_POS();
                PRINT_TYPE(NewVariable->Typ)
                printf("[%d] subarray size: %d (full: %d,%d) \n", ArrayIndex,
                    SubArraySize, FullArraySize, NewVariable->Typ->ArraySize);
#endif
                if (ArrayIndex >= NewVariable->Typ->ArraySize)
                    ProgramFail(Parser, "too many array elements");
            }
            LexGetToken(Parser, NULL, true);
            ParseArrayInitialiser(Parser, SubArray, DoAssignment);
        } else {
            struct Value *ArrayElement = NULL;

            if (Parser->Mode == RunModeRun && DoAssignment) {
                struct ValueType * ElementType = NewVariable->Typ;
                int TotalSize = 1;
                int ElementSize = 0;

                /* int x[3][3] = {1,2,3,4} => handle it just like int x[9] = {1,2,3,4} */
                while (ElementType->Base == TypeArray) {
                    TotalSize *= ElementType->ArraySize;
                    ElementType = ElementType->FromType;

                    /* char x[10][10] = {"abc", "def"} => assign "abc" to x[0], "def" to x[1] etc */
                    if (LexGetToken(Parser, NULL, false) == TokenStringConstant &&
                            ElementType->FromType->Base == TypeChar)
                        break;
                }
                ElementSize = TypeSize(ElementType, ElementType->ArraySize, true);
#ifdef DEBUG_ARRAY_INITIALIZER
                PRINT_SOURCE_POS();
                printf("[%d/%d] element size: %d (x%d) \n", ArrayIndex, TotalSize,
                    ElementSize, ElementType->ArraySize);
#endif
                if (ArrayIndex >= TotalSize)
                    ProgramFail(Parser, "too many array elements");
                ArrayElement = VariableAllocValueFromExistingData(Parser,
                    ElementType,
                    (union AnyValue*)(&NewVariable->Val->ArrayMem[0]+ElementSize*ArrayIndex),
                    true, NewVariable);
            }

            /* this is a normal expression initialiser */
            if (!ExpressionParse(Parser, &CValue))
                ProgramFail(Parser, "expression expected");

            if (Parser->Mode == RunModeRun && DoAssignment) {
                ExpressionAssign(Parser, ArrayElement, CValue, false, NULL, 0, false);
                VariableStackPop(Parser, CValue);
                VariableStackPop(Parser, ArrayElement);
            }
        }

        ArrayIndex++;

        Token = LexGetToken(Parser, NULL, false);
        if (Token == TokenComma) {
            LexGetToken(Parser, NULL, true);
            Token = LexGetToken(Parser, NULL, false);
        } else if (Token != TokenRightBrace)
            ProgramFail(Parser, "comma expected");
    }

    if (Token == TokenRightBrace)
        LexGetToken(Parser, NULL, true);
    else
        ProgramFail(Parser, "'}' expected");

    return ArrayIndex;
}

/* assign an initial value to a variable */
void ParseDeclarationAssignment(struct ParseState *Parser,
    struct Value *NewVariable, int DoAssignment)
{
    struct Value *CValue;

    if (LexGetToken(Parser, NULL, false) == TokenLeftBrace) {
        /* this is an array initialiser */
        LexGetToken(Parser, NULL, true);
        ParseArrayInitialiser(Parser, NewVariable, DoAssignment);
    } else {
        /* this is a normal expression initialiser */
        if (!ExpressionParse(Parser, &CValue))
            ProgramFail(Parser, "expression expected");

        if (Parser->Mode == RunModeRun && DoAssignment) {
            ExpressionAssign(Parser, NewVariable, CValue, false, NULL, 0, false);
            VariableStackPop(Parser, CValue);
        }
    }
}

/* declare a variable or function */
int ParseDeclaration(struct ParseState *Parser, enum LexToken Token)
{
    int IsStatic = false;
    int FirstVisit = false;
    char *Identifier;
    struct ValueType *BasicType;
    struct ValueType *Typ;
    struct Value *NewVariable = NULL;
    Picoc *pc = Parser->pc;

    TypeParseFront(Parser, &BasicType, &IsStatic);
    do {
        TypeParseIdentPart(Parser, BasicType, &Typ, &Identifier);
        if ((Token != TokenVoidType && Token != TokenStructType &&
                Token != TokenUnionType && Token != TokenEnumType) &&
                Identifier == pc->StrEmpty)
            ProgramFail(Parser, "identifier expected");

        if (Identifier != pc->StrEmpty) {
            /* handle function definitions */
            if (LexGetToken(Parser, NULL, false) == TokenOpenBracket)
            {
                ParseFunctionDefinition(Parser, Typ, Identifier);
                return false;
            } else {
                if (Typ == &pc->VoidType && Identifier != pc->StrEmpty)
                    ProgramFail(Parser, "can't define a void variable");

                if (Parser->Mode == RunModeRun || Parser->Mode == RunModeGoto)
                    NewVariable = VariableDefineButIgnoreIdentical(Parser,
                        Identifier, Typ, IsStatic, &FirstVisit);

                if (LexGetToken(Parser, NULL, false) == TokenAssign) {
                    /* we're assigning an initial value */
                    LexGetToken(Parser, NULL, true);
                    ParseDeclarationAssignment(Parser, NewVariable,
                        !IsStatic || FirstVisit);
                }
            }
        }

        Token = LexGetToken(Parser, NULL, false);
        if (Token == TokenComma)
            LexGetToken(Parser, NULL, true);

    } while (Token == TokenComma);

    return true;
}

/* parse a #define macro definition and store it for later */
void ParseMacroDefinition(struct ParseState *Parser)
{
    char *MacroNameStr;
    struct Value *MacroName;
    struct Value *ParamName;
    struct Value *MacroValue;

    if (LexGetToken(Parser, &MacroName, true) != TokenIdentifier)
        ProgramFail(Parser, "identifier expected");

    MacroNameStr = MacroName->Val->Identifier;

    if (LexRawPeekToken(Parser) == TokenOpenMacroBracket) {
        /* it's a parameterised macro, read the parameters */
        enum LexToken Token = LexGetToken(Parser, NULL, true);
        struct ParseState ParamParser;
        int NumParams;
        int ParamCount = 0;

        ParserCopy(&ParamParser, Parser);
        NumParams = ParseCountParams(&ParamParser);
        MacroValue = VariableAllocValueAndData(Parser->pc, Parser,
            sizeof(struct MacroDef) + sizeof(const char *) * NumParams,
            false, NULL, true);
        MacroValue->Val->MacroDef.NumParams = NumParams;
        MacroValue->Val->MacroDef.ParamName = (char**)((char*)MacroValue->Val+sizeof(struct MacroDef));

        Token = LexGetToken(Parser, &ParamName, true);

        while (Token == TokenIdentifier) {
            /* store a parameter name */
            MacroValue->Val->MacroDef.ParamName[ParamCount++] =
                ParamName->Val->Identifier;

            /* get the trailing comma */
            Token = LexGetToken(Parser, NULL, true);
            if (Token == TokenComma)
                Token = LexGetToken(Parser, &ParamName, true);

            else if (Token != TokenCloseBracket)
                ProgramFail(Parser, "comma expected");
        }

        if (Token != TokenCloseBracket)
            ProgramFail(Parser, "close bracket expected");
    } else {
        /* allocate a simple unparameterised macro */
        MacroValue = VariableAllocValueAndData(Parser->pc, Parser,
            sizeof(struct MacroDef), false, NULL, true);
        MacroValue->Val->MacroDef.NumParams = 0;
    }

    /* copy the body of the macro to execute later */
    ParserCopy(&MacroValue->Val->MacroDef.Body, Parser);
    MacroValue->Typ = &Parser->pc->MacroType;
    LexToEndOfLine(Parser);
    MacroValue->Val->MacroDef.Body.Pos =
        LexCopyTokens(&MacroValue->Val->MacroDef.Body, Parser);

    if (!TableSet(Parser->pc, &Parser->pc->GlobalTable, MacroNameStr, MacroValue,
                (char *)Parser->FileName, Parser->Line, Parser->CharacterPos))
        ProgramFail(Parser, "'%s' is already defined", MacroNameStr);
}

/* copy the entire parser state */
void ParserCopy(struct ParseState *To, struct ParseState *From)
{
    memcpy((void *)To, (void *)From, sizeof(*To));
}

/* copy where we're at in the parsing */
void ParserCopyPos(struct ParseState *To, struct ParseState *From)
{
    To->Pos = From->Pos;
    To->Line = From->Line;
    To->HashIfLevel = From->HashIfLevel;
    To->HashIfEvaluateToLevel = From->HashIfEvaluateToLevel;
    To->CharacterPos = From->CharacterPos;
}

/* parse a "for" statement */
void ParseFor(struct ParseState *Parser)
{
    int Condition;
    struct ParseState PreConditional;
    struct ParseState PreIncrement;
    struct ParseState PreStatement;
    struct ParseState After;

    enum RunMode OldMode = Parser->Mode;

    int PrevScopeID = 0;
    int ScopeID = VariableScopeBegin(Parser, &PrevScopeID);

    if (LexGetToken(Parser, NULL, true) != TokenOpenBracket)
        ProgramFail(Parser, "'(' expected");

    if (ParseStatement(Parser, true) != ParseResultOk)
        ProgramFail(Parser, "statement expected");

    ParserCopyPos(&PreConditional, Parser);
    if (LexGetToken(Parser, NULL, false) == TokenSemicolon)
        Condition = true;
    else
        Condition = ExpressionParseInt(Parser);

    if (LexGetToken(Parser, NULL, true) != TokenSemicolon)
        ProgramFail(Parser, "';' expected");

    ParserCopyPos(&PreIncrement, Parser);
    ParseStatementMaybeRun(Parser, false, false);

    if (LexGetToken(Parser, NULL, true) != TokenCloseBracket)
        ProgramFail(Parser, "')' expected");

    ParserCopyPos(&PreStatement, Parser);
    if (ParseStatementMaybeRun(Parser, Condition, true) != ParseResultOk)
        ProgramFail(Parser, "statement expected");

    if (Parser->Mode == RunModeContinue && OldMode == RunModeRun)
        Parser->Mode = RunModeRun;

    ParserCopyPos(&After, Parser);

    while (Condition && Parser->Mode == RunModeRun) {
        ParserCopyPos(Parser, &PreIncrement);
        ParseStatement(Parser, false);

        ParserCopyPos(Parser, &PreConditional);
        if (LexGetToken(Parser, NULL, false) == TokenSemicolon)
            Condition = true;
        else
            Condition = ExpressionParseInt(Parser);

        if (Condition) {
            ParserCopyPos(Parser, &PreStatement);
            ParseStatement(Parser, true);

            if (Parser->Mode == RunModeContinue)
                Parser->Mode = RunModeRun;
        }
    }

    if (Parser->Mode == RunModeBreak && OldMode == RunModeRun)
        Parser->Mode = RunModeRun;

    VariableScopeEnd(Parser, ScopeID, PrevScopeID);

    ParserCopyPos(Parser, &After);
}

/* parse a block of code and return what mode it returned in */
enum RunMode ParseBlock(struct ParseState *Parser, int AbsorbOpenBrace,
    int Condition)
{
    int PrevScopeID = 0;
    int ScopeID = VariableScopeBegin(Parser, &PrevScopeID);

    if (AbsorbOpenBrace && LexGetToken(Parser, NULL, true) != TokenLeftBrace)
        ProgramFail(Parser, "'{' expected");

    if (Parser->Mode == RunModeSkip || !Condition) {
        /* condition failed - skip this block instead */
        enum RunMode OldMode = Parser->Mode;
        Parser->Mode = RunModeSkip;
        while (ParseStatement(Parser, true) == ParseResultOk) {
        }
        Parser->Mode = OldMode;
    } else {
        /* just run it in its current mode */
        while (ParseStatement(Parser, true) == ParseResultOk) {
        }
    }

    if (LexGetToken(Parser, NULL, true) != TokenRightBrace)
        ProgramFail(Parser, "'}' expected");

    VariableScopeEnd(Parser, ScopeID, PrevScopeID);

    return Parser->Mode;
}

/* parse a typedef declaration */
void ParseTypedef(struct ParseState *Parser)
{
    char *TypeName;
    struct ValueType *Typ;
    struct ValueType **TypPtr;
    struct Value InitValue;

    TypeParse(Parser, &Typ, &TypeName, NULL);

    if (Parser->Mode == RunModeRun) {
        TypPtr = &Typ;
        InitValue.Typ = &Parser->pc->TypeType;
        InitValue.Val = (union AnyValue *)TypPtr;
        VariableDefine(Parser->pc, Parser, TypeName, &InitValue, NULL, false);
    }
}

/* parse a statement */
enum ParseResult ParseStatement(struct ParseState *Parser,
    int CheckTrailingSemicolon)
{
    int Condition;
    enum LexToken Token;
    struct Value *CValue;
    struct Value *LexerValue;
    struct Value *VarValue;
    struct ParseState PreState;

    /* if we're debugging, check for a breakpoint */
    if (Parser->DebugMode && Parser->Mode == RunModeRun)
#ifdef DEBUGGER
        DebugCheckStatement(Parser)
#endif
        ;


    /* take note of where we are and then grab a token to see what statement we have */
    ParserCopy(&PreState, Parser);
    Token = LexGetToken(Parser, &LexerValue, true);

    switch (Token) {
    case TokenEOF:
        return ParseResultEOF;
    case TokenIdentifier:
        /* might be a typedef-typed variable declaration or it might be an expression */
        if (VariableDefined(Parser->pc, LexerValue->Val->Identifier)) {
            VariableGet(Parser->pc, Parser, LexerValue->Val->Identifier, &VarValue);
            if (VarValue->Typ->Base == Type_Type) {
                *Parser = PreState;
                ParseDeclaration(Parser, Token);
                break;
            }
        } else {
            /* it might be a goto label */
            enum LexToken NextToken = LexGetToken(Parser, NULL, false);
            if (NextToken == TokenColon) {
                /* declare the identifier as a goto label */
                LexGetToken(Parser, NULL, true);
                if (Parser->Mode == RunModeGoto &&
                        LexerValue->Val->Identifier == Parser->SearchGotoLabel)
                    Parser->Mode = RunModeRun;
                CheckTrailingSemicolon = false;
                break;
            }
        }
        /* else fallthrough to expression */
	    /* no break */
    case TokenAsterisk:
    case TokenAmpersand:
    case TokenIncrement:
    case TokenDecrement:
    case TokenOpenBracket:
        *Parser = PreState;
        ExpressionParse(Parser, &CValue);
        if (Parser->Mode == RunModeRun)
            VariableStackPop(Parser, CValue);
        break;
    case TokenLeftBrace:
        ParseBlock(Parser, false, true);
        CheckTrailingSemicolon = false;
        break;
    case TokenIf:
        if (LexGetToken(Parser, NULL, true) != TokenOpenBracket)
            ProgramFail(Parser, "'(' expected");
        Condition = ExpressionParseInt(Parser);
        if (LexGetToken(Parser, NULL, true) != TokenCloseBracket)
            ProgramFail(Parser, "')' expected");
        if (ParseStatementMaybeRun(Parser, Condition, true) != ParseResultOk)
            ProgramFail(Parser, "statement expected");
        if (LexGetToken(Parser, NULL, false) == TokenElse) {
            LexGetToken(Parser, NULL, true);
            if (ParseStatementMaybeRun(Parser, !Condition, true) != ParseResultOk)
                ProgramFail(Parser, "statement expected");
        }
        CheckTrailingSemicolon = false;
        break;
    case TokenWhile:
        {
            struct ParseState PreConditional;
            enum RunMode PreMode = Parser->Mode;
            if (LexGetToken(Parser, NULL, true) != TokenOpenBracket)
                ProgramFail(Parser, "'(' expected");
            ParserCopyPos(&PreConditional, Parser);
            do {
                ParserCopyPos(Parser, &PreConditional);
                Condition = ExpressionParseInt(Parser);
                if (LexGetToken(Parser, NULL, true) != TokenCloseBracket)
                    ProgramFail(Parser, "')' expected");
                if (ParseStatementMaybeRun(Parser, Condition, true) != ParseResultOk)
                    ProgramFail(Parser, "statement expected");
                if (Parser->Mode == RunModeContinue)
                    Parser->Mode = PreMode;
            } while (Parser->Mode == RunModeRun && Condition);
            if (Parser->Mode == RunModeBreak)
                Parser->Mode = PreMode;
            CheckTrailingSemicolon = false;
        }
        break;
    case TokenDo:
        {
            struct ParseState PreStatement;
            enum RunMode PreMode = Parser->Mode;
            ParserCopyPos(&PreStatement, Parser);
            do {
                ParserCopyPos(Parser, &PreStatement);
                if (ParseStatement(Parser, true) != ParseResultOk)
                    ProgramFail(Parser, "statement expected");
                if (Parser->Mode == RunModeContinue)
                    Parser->Mode = PreMode;
                if (LexGetToken(Parser, NULL, true) != TokenWhile)
                    ProgramFail(Parser, "'while' expected");
                if (LexGetToken(Parser, NULL, true) != TokenOpenBracket)
                    ProgramFail(Parser, "'(' expected");
                Condition = ExpressionParseInt(Parser);
                if (LexGetToken(Parser, NULL, true) != TokenCloseBracket)
                    ProgramFail(Parser, "')' expected");
            } while (Condition && Parser->Mode == RunModeRun);
            if (Parser->Mode == RunModeBreak)
                Parser->Mode = PreMode;
        }
        break;
    case TokenFor:
        ParseFor(Parser);
        CheckTrailingSemicolon = false;
        break;
    case TokenSemicolon:
        CheckTrailingSemicolon = false;
        break;
    case TokenIntType:
    case TokenShortType:
    case TokenCharType:
    case TokenLongType:
    case TokenFloatType:
    case TokenDoubleType:
    case TokenVoidType:
    case TokenStructType:
    case TokenUnionType:
    case TokenEnumType:
    case TokenSignedType:
    case TokenUnsignedType:
    case TokenStaticType:
    case TokenAutoType:
    case TokenRegisterType:
    case TokenExternType:
        *Parser = PreState;
        CheckTrailingSemicolon = ParseDeclaration(Parser, Token);
        break;
    case TokenHashDefine:
        ParseMacroDefinition(Parser);
        CheckTrailingSemicolon = false;
        break;
    case TokenHashInclude:
        if (LexGetToken(Parser, &LexerValue, true) != TokenStringConstant)
            ProgramFail(Parser, "\"filename.h\" expected");
        IncludeFile(Parser->pc, (char *)LexerValue->Val->Pointer);
        CheckTrailingSemicolon = false;
        break;
    case TokenSwitch:
        if (LexGetToken(Parser, NULL, true) != TokenOpenBracket)
            ProgramFail(Parser, "'(' expected");
        Condition = ExpressionParseInt(Parser);
        if (LexGetToken(Parser, NULL, true) != TokenCloseBracket)
            ProgramFail(Parser, "')' expected");
        if (LexGetToken(Parser, NULL, false) != TokenLeftBrace)
            ProgramFail(Parser, "'{' expected");
        {
            /* new block so we can store parser state */
            enum RunMode OldMode = Parser->Mode;
            int OldSearchLabel = Parser->SearchLabel;
            Parser->Mode = RunModeCaseSearch;
            Parser->SearchLabel = Condition;
            ParseBlock(Parser, true, (OldMode != RunModeSkip) &&
                (OldMode != RunModeReturn));
            if (Parser->Mode != RunModeReturn)
                Parser->Mode = OldMode;
            Parser->SearchLabel = OldSearchLabel;
        }
        CheckTrailingSemicolon = false;
        break;
    case TokenCase:
        if (Parser->Mode == RunModeCaseSearch) {
            Parser->Mode = RunModeRun;
            Condition = ExpressionParseInt(Parser);
            Parser->Mode = RunModeCaseSearch;
        } else
            Condition = ExpressionParseInt(Parser);
        if (LexGetToken(Parser, NULL, true) != TokenColon)
            ProgramFail(Parser, "':' expected");
        if (Parser->Mode == RunModeCaseSearch && Condition == Parser->SearchLabel)
            Parser->Mode = RunModeRun;
        CheckTrailingSemicolon = false;
        break;
    case TokenDefault:
        if (LexGetToken(Parser, NULL, true) != TokenColon)
            ProgramFail(Parser, "':' expected");
        if (Parser->Mode == RunModeCaseSearch)
            Parser->Mode = RunModeRun;
        CheckTrailingSemicolon = false;
        break;
    case TokenBreak:
        if (Parser->Mode == RunModeRun)
            Parser->Mode = RunModeBreak;
        break;
    case TokenContinue:
        if (Parser->Mode == RunModeRun)
            Parser->Mode = RunModeContinue;
        break;
    case TokenReturn:
        if (Parser->Mode == RunModeRun) {
            if (!Parser->pc->TopStackFrame ||
                    Parser->pc->TopStackFrame->ReturnValue->Typ->Base != TypeVoid) {
                if (!ExpressionParse(Parser, &CValue))
                    ProgramFail(Parser, "value required in return");
                if (!Parser->pc->TopStackFrame) /* return from top-level program? */
                    PlatformExit(Parser->pc, ExpressionCoerceInteger(CValue));
                else
                    ExpressionAssign(Parser,
                        Parser->pc->TopStackFrame->ReturnValue, CValue, true,
                        NULL, 0, false);
                VariableStackPop(Parser, CValue);
            } else {
                if (ExpressionParse(Parser, &CValue))
                    ProgramFail(Parser, "value in return from a void function");
            }
            Parser->Mode = RunModeReturn;
        }
        else
            ExpressionParse(Parser, &CValue);
        break;
    case TokenTypedef:
        ParseTypedef(Parser);
        break;
    case TokenGoto:
        if (LexGetToken(Parser, &LexerValue, true) != TokenIdentifier)
            ProgramFail(Parser, "identifier expected");
        if (Parser->Mode == RunModeRun) {
            /* start scanning for the goto label */
            Parser->SearchGotoLabel = LexerValue->Val->Identifier;
            Parser->Mode = RunModeGoto;
        }
        break;
    case TokenDelete:
        {
            /* try it as a function or variable name to delete */
            if (LexGetToken(Parser, &LexerValue, true) != TokenIdentifier)
                ProgramFail(Parser, "identifier expected");
            if (Parser->Mode == RunModeRun) {
                /* delete this variable or function */
                CValue = TableDelete(Parser->pc, &Parser->pc->GlobalTable,
                    LexerValue->Val->Identifier);
                if (CValue == NULL)
                    ProgramFail(Parser, "'%s' is not defined",
                        LexerValue->Val->Identifier);

                VariableFree(Parser->pc, CValue);
            }
            break;
        }
    default:
        *Parser = PreState;
        return ParseResultError;
    }

    if (CheckTrailingSemicolon) {
        if (LexGetToken(Parser, NULL, true) != TokenSemicolon)
            ProgramFail(Parser, "';' expected");
    }

    return ParseResultOk;
}

/* quick scan a source file for definitions */
void PicocParse(Picoc *pc, const char *FileName, const char *Source,
    int SourceLen, int RunIt, int CleanupNow, int CleanupSource,
    int EnableDebugger)
{
    char *RegFileName = TableStrRegister(pc, FileName);
    enum ParseResult Ok;
    struct ParseState Parser;
    struct CleanupTokenNode *NewCleanupNode;

    void *Tokens = LexAnalyse(pc, RegFileName, Source, SourceLen, NULL);

    /* allocate a cleanup node so we can clean up the tokens later */
    if (!CleanupNow) {
        NewCleanupNode = HeapAllocMem(pc, sizeof(struct CleanupTokenNode));
        if (NewCleanupNode == NULL)
            ProgramFailNoParser(pc, "(PicocParse) out of memory");

        NewCleanupNode->Tokens = Tokens;
        if (CleanupSource)
            NewCleanupNode->SourceText = Source;
        else
            NewCleanupNode->SourceText = NULL;

        NewCleanupNode->Next = pc->CleanupTokenList;
        pc->CleanupTokenList = NewCleanupNode;
    }

    /* do the parsing */
    LexInitParser(&Parser, pc, Source, Tokens, RegFileName, RunIt, EnableDebugger);

    do {
        Ok = ParseStatement(&Parser, true);
    } while (Ok == ParseResultOk);

    if (Ok == ParseResultError)
        ProgramFail(&Parser, "parse error");

    /* clean up */
    if (CleanupNow)
        HeapFreeMem(pc, Tokens);
}

/* parse interactively */
void PicocParseInteractiveNoStartPrompt(Picoc *pc, int EnableDebugger)
{
    enum ParseResult Ok;
    struct ParseState Parser;

    LexInitParser(&Parser, pc, NULL, NULL, pc->StrEmpty, true, EnableDebugger);
    PicocPlatformSetExitPoint(pc);
    LexInteractiveClear(pc, &Parser);

    do {
        LexInteractiveStatementPrompt(pc);
        Ok = ParseStatement(&Parser, true);
        LexInteractiveCompleted(pc, &Parser);

    } while (Ok == ParseResultOk);

    if (Ok == ParseResultError)
        ProgramFail(&Parser, "parse error");

    PlatformPrintf(pc->CStdOut, "\n");
}

/* parse interactively, showing a startup message */
void PicocParseInteractive(Picoc *pc)
{
    PlatformPrintf(pc->CStdOut, INTERACTIVE_PROMPT_START);
    PicocParseInteractiveNoStartPrompt(pc, gEnableDebugger);
}