mirror of
https://github.com/byteworksinc/ORCA-C.git
synced 2024-12-22 07:30:54 +00:00
f2414cd815
For now, this is only used for _Generic expressions. Eventually, it should probably replace the current CompTypes, but CompTypes currently performs somewhat looser checks that are suitable for some situations, so adjustments would be needed at some call sites.
4708 lines
174 KiB
ObjectPascal
4708 lines
174 KiB
ObjectPascal
{$optimize 1}
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{---------------------------------------------------------------}
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{ }
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{ Expression }
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{ }
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{ Evaluate expressions }
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{ }
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{ Note: The expression evaluator uses the scanner to fetch }
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{ tokens, but IT IS ALSO USED BY THE SCANNER to evaluate }
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{ expressions in preprocessor commands. This circular }
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{ dependency is handle by defining all of the expression }
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{ evaluator's external types, constants, and variables in the }
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{ CCOMMON module. The only procedure from this module used by }
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{ the scanner is Expression, which is declared as an external }
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{ procedure in the scanner. }
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{ }
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{ External Variables: }
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{ }
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{ startExpression - tokens that may start an expression }
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{ bitDisp,bitSize - bit field disp, size }
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{ unsigned - is the bit field unsigned? }
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{ isBitField - is the field a bit field? }
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{ }
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{ External Subroutines: }
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{ }
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{ AssignmentConversion - do type checking and conversions for }
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{ assignment statements }
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{ CompareToZero - Compare the result on tos to zero. }
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{ DisposeTree - dispose of an expression tree }
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{ DoSelection - Find the displacement & type for a }
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{ selection operation }
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{ Expression - handle an expression }
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{ FreeTemp - place a temporary label in the available label }
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{ list }
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{ GenerateCode - generate code from a fully formed expression }
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{ tree }
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{ GetTemp - find a temporary work variable }
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{ InitExpression - initialize the expression handler }
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{ UsualBinaryConversions - performs the usual binary }
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{ conversions }
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{ UsualUnaryConversions - performs the usual unary conversions }
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{ }
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{---------------------------------------------------------------}
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unit Expression;
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{$LibPrefix '0/obj/'}
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interface
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uses CCommon, Table, CGI, Scanner, Symbol, MM, Printf;
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{$segment 'EXP'}
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var
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startExpression: tokenSet; {tokens that can start an expression}
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{set by DoSelection}
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{------------------}
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bitDisp,bitSize: integer; {bit field disp, size}
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unsigned: boolean; {is the bit field unsigned?}
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isBitField: boolean; {is the field a bit field?}
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{misc}
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{----}
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lastwasconst: boolean; {did the last GenerateCode result in an integer constant?}
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lastconst: longint; {last integer constant from GenerateCode}
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{---------------------------------------------------------------}
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procedure AssignmentConversion (t1, t2: typePtr; isConstant: boolean;
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value: longint; genCode, checkConst: boolean);
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{ TOS is of type t2, and is about to be stored to a variable of }
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{ type t1 by an assignment or a return statement. Make sure }
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{ this is legal, and do any necessary type conversions on t2, }
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{ which is on the top of the evaluation stack. Flag an error }
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{ if the conversion is illegal. }
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{ }
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{ parameters: }
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{ t1 - type of the variable }
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{ t2 - type of the expression }
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{ isConstant - is the rhs a constant? }
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{ value - if isConstant = true, then this is the value }
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{ genCode - should conversion code be generated? }
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{ checkConst - check for assignments to constants? }
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procedure CompareToZero(op: pcodes);
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{ Compare the result on tos to zero. }
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{ }
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{ This procedure is used by the logical statements to compare }
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{ _any_ scalar result to zero, giving a boolean result. }
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{ }
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{ parameters: }
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{ op - operation to use on the compare }
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procedure DisposeTree (tree: tokenPtr);
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{ dispose of an expression tree }
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{ }
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{ parameters: }
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{ tree - head of the expression tree to dispose of }
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procedure DoSelection (lType: typePtr; tree: tokenPtr; var size: longint);
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{ Find the displacement & type for a selection operation }
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{ }
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{ parameters: }
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{ lType - structure/union type }
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{ id - tag field name }
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{ size - disp into the structure/union }
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{ }
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{ returned in non-local variables: }
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{ bitDisp - displacement to bit field }
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{ bitSize - size of bit field }
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{ unsigned - is the bit field unsigned? }
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{ isBitField - is the field a bit field? }
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{ }
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{ variables: }
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{ expressionType - set to the type of the field }
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procedure Expression (kind: expressionKind; stopSym: tokenSet);
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{ handle an expression }
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{ }
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{ parameters: }
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{ kind - Kind of expression; determines what operations }
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{ and what kind of operands are allowed. }
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{ stopSym - Set of symbols that can mark the end of an }
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{ expression; used to skip tokens after syntax }
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{ errors and to block certain operations. For }
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{ example, the comma operator is not allowed in }
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{ an expression when evaluating a function }
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{ parameter list. }
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{ }
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{ variables: }
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{ realExpressionValue - value of a real constant }
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{ expression }
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{ expressionValue - value of a constant expression }
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{ expressionType - type of the constant expression }
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procedure FreeTemp(labelNum, size: integer);
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{ place a temporary label in the available label list }
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{ }
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{ parameters: }
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{ labelNum - number of the label to free }
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{ size - size of the variable }
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{ }
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{ variables: }
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{ tempList - list of free labels }
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procedure GenerateCode (tree: tokenPtr);
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{ generate code from a fully formed expression tree }
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{ }
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{ parameters: }
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{ tree - top of the expression tree to generate code from }
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{ }
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{ variables: }
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{ expressionType - result type of the expression }
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function GetTemp(size: integer): integer;
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{ find a temporary work variable }
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{ }
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{ parameters: }
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{ size - size of the variable }
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{ }
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{ variables: }
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{ tempList - list of free labels }
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{ }
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{ Returns the label number. }
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procedure InitExpression;
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{ initialize the expression handler }
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function UsualBinaryConversions (lType: typePtr): baseTypeEnum;
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{ performs the usual binary conversions }
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{ }
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{ inputs: }
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{ lType - type of the left operand }
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{ expressionType - type of the right operand }
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{ }
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{ result: }
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{ The base type of the operation to perform is }
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{ returned. Any conversion code necessary has been }
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{ generated. }
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{ }
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{ outputs: }
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{ expressionType - set to result type }
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function UsualUnaryConversions: baseTypeEnum;
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{ performs the usual unary conversions }
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{ }
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{ inputs: }
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{ expressionType - type of the operand }
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{ }
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{ result: }
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{ The base type of the operation to perform is returned. }
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{ Any conversion code necessary has been generated. }
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{ }
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{ outputs: }
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{ expressionType - set to result type }
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procedure GetLLExpressionValue (var val: longlong);
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{ get the value of the last integer constant expression as a }
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{ long long (whether it had long long type or not). }
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{---------------------------------------------------------------}
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implementation
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const
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{notAnOperation is also used in TABLE.ASM}
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notAnOperation = 200; {used as the icp for non-operation tokens}
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var
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{structured constants}
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{--------------------}
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startTerm: tokenSet; {tokens that can start a term}
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{misc}
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{----}
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errorFound: boolean; {was there are error during generation?}
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{-- Procedures imported from the parser ------------------------}
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procedure Match (kind: tokenEnum; err: integer); extern;
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{ insure that the next token is of the specified type }
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{ }
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{ parameters: }
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{ kind - expected token kind }
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{ err - error number if the expected token is not found }
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procedure TypeName; extern;
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{ process a type name (used for casts and sizeof/_Alignof) }
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{ }
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{ outputs: }
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{ typeSpec - pointer to the type }
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function MakeFuncIdentifier: identPtr; extern;
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{ Make the predefined identifier __func__. }
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{ }
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{ It is inserted in the symbol table as if the following }
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{ declaration appeared at the beginning of the function body: }
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{ }
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{ static const char __func__[] = "function-name"; }
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{ }
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{ This must only be called within a function body. }
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{-- External unsigned math routines ----------------------------}
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function lshr (x,y: longint): longint; extern;
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function udiv (x,y: longint): longint; extern;
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function uge (x,y: longint): longint; extern;
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function ugt (x,y: longint): longint; extern;
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function ule (x,y: longint): longint; extern;
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function ult (x,y: longint): longint; extern;
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function umod (x,y: longint): longint; extern;
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function umul (x,y: longint): longint; extern;
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{-- External 64-bit math routines ------------------------------}
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{ Procedures for arithmetic and shifts compute "x := x OP y". }
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procedure umul64 (var x: longlong; y: longlong); extern;
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procedure udiv64 (var x: longlong; y: longlong); extern;
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procedure div64 (var x: longlong; y: longlong); extern;
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procedure umod64 (var x: longlong; y: longlong); extern;
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procedure rem64 (var x: longlong; y: longlong); extern;
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procedure add64 (var x: longlong; y: longlong); extern;
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procedure sub64 (var x: longlong; y: longlong); extern;
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procedure shl64 (var x: longlong; y: integer); extern;
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procedure ashr64 (var x: longlong; y: integer); extern;
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procedure lshr64 (var x: longlong; y: integer); extern;
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function ult64(a,b: longlong): integer; extern;
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function uge64(a,b: longlong): integer; extern;
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function ule64(a,b: longlong): integer; extern;
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function ugt64(a,b: longlong): integer; extern;
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function slt64(a,b: longlong): integer; extern;
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function sge64(a,b: longlong): integer; extern;
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function sle64(a,b: longlong): integer; extern;
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function sgt64(a,b: longlong): integer; extern;
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{-- External conversion functions; imported from CGC.pas -------}
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procedure CnvXLL (var result: longlong; val: extended); extern;
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procedure CnvXULL (var result: longlong; val: extended); extern;
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function CnvLLX (val: longlong): extended; extern;
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function CnvULLX (val: longlong): extended; extern;
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{---------------------------------------------------------------}
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function Unary(tp: baseTypeEnum): baseTypeEnum;
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{ usual unary conversions }
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{ }
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{ This function returns the base type actually loaded on the }
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{ stack for a particular data type. This corresponds to C's }
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{ usual unary conversions. }
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{ }
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{ parameter: }
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{ tp - data type }
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{ }
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{ result: }
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{ Stack type. }
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begin {Unary}
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if tp in [cgByte,cgUByte] then
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tp := cgWord;
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Unary := tp;
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end; {Unary}
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function UsualBinaryConversions {lType: typePtr): baseTypeEnum};
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{ performs the usual binary conversions }
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{ }
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{ inputs: }
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{ lType - type of the left operand }
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{ expressionType - type of the right operand }
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{ }
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{ result: }
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{ The base type of the operation to perform is }
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{ returned. Any conversion code necessary has been }
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{ generated. }
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{ }
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{ outputs: }
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{ expressionType - set to result type }
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var
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rType: typePtr; {right type}
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lt,rt: baseTypeEnum; {work variables}
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function CommonRealType (lt, rt: baseTypeEnum): baseTypeEnum;
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{ Compute the common real type of two types, where at least }
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{ one of the types is a real type. }
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{ }
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{ inputs: }
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{ lt, rt - the two operand types }
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{ }
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{ outputs: }
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{ expressionType - set to result type }
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begin {CommonRealType}
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if (lt = cgComp) and (rt = cgComp) then
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lt := cgComp
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else if (lt in [cgExtended,cgComp]) or (rt in [cgExtended,cgComp]) then
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lt := cgExtended
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else if (lt = cgDouble) or (rt = cgDouble) then
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lt := cgDouble
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else
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lt := cgReal;
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CommonRealType := lt;
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case lt of
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cgReal: expressionType := floatPtr;
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cgDouble: expressionType := doublePtr;
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cgExtended: expressionType := extendedPtr;
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cgComp: expressionType := compPtr;
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end; {case}
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end; {CommonRealType}
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begin {UsualBinaryConversions}
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UsualBinaryConversions := cgULong;
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if lType^.kind = pointerType then
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lType := uLongPtr
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else if lType^.kind = scalarType then
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if lType^.baseType = cgVoid then begin
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lType := uLongPtr;
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Error(66);
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end; {if}
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rType := expressionType;
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if rType^.kind = pointerType then
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rType := uLongPtr
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else if rType^.kind = scalarType then
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if rType^.baseType = cgVoid then begin
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rType := uLongPtr;
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Error(66);
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end; {if}
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if (lType^.kind = scalarType) and (rType^.kind = scalarType) then begin
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lt := Unary(lType^.baseType);
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rt := Unary(rType^.baseType);
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if lt <> rt then begin
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if lt in [cgReal,cgDouble,cgExtended,cgComp] then begin
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if rt in [cgWord,cgUWord,cgLong,cgULong,cgQuad,cgUQuad] then
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Gen2(pc_cnv, ord(rt), ord(cgExtended));
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UsualBinaryConversions := CommonRealType(lt, rt);
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end {if}
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else if rt in [cgReal,cgDouble,cgExtended,cgComp] then begin
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if lt in [cgWord,cgUWord,cgLong,cgULong,cgQuad,cgUQuad] then
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Gen2(pc_cnn, ord(lt), ord(cgExtended));
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UsualBinaryConversions := CommonRealType(lt, rt);
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end {else if}
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else if lt = cgUQuad then begin
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if rt in [cgWord,cgUWord,cgLong,cgULong] then
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Gen2(pc_cnv, ord(rt), ord(cgUQuad));
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UsualBinaryConversions := cgUQuad;
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expressionType := uLongLongPtr;
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end {else if}
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else if rt = cgUQuad then begin
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if lt in [cgWord,cgUWord,cgLong,cgULong] then
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Gen2(pc_cnn, ord(lt), ord(cgUQuad));
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UsualBinaryConversions := cgUQuad;
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expressionType := uLongLongPtr;
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end {else if}
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else if lt = cgQuad then begin
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if rt in [cgWord,cgUWord,cgLong,cgULong] then
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Gen2(pc_cnv, ord(rt), ord(cgQuad));
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UsualBinaryConversions := cgQuad;
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expressionType := longLongPtr;
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end {else if}
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else if rt = cgQuad then begin
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if lt in [cgWord,cgUWord,cgLong,cgULong] then
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Gen2(pc_cnn, ord(lt), ord(cgQuad));
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UsualBinaryConversions := cgQuad;
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expressionType := longLongPtr;
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end {else if}
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else if lt = cgULong then begin
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if rt in [cgWord,cgUWord] then
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Gen2(pc_cnv, ord(rt), ord(cgULong));
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UsualBinaryConversions := cgULong;
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expressionType := uLongPtr;
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end {else if}
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else if rt = cgULong then begin
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if lt in [cgWord,cgUWord] then
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Gen2(pc_cnn, ord(lt), ord(cgULong));
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UsualBinaryConversions := cgULong;
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expressionType := uLongPtr;
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end {else if}
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else if lt = cgLong then begin
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if rt in [cgWord,cgUWord] then
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Gen2(pc_cnv, ord(rt), ord(cgLong));
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UsualBinaryConversions := cgLong;
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expressionType := longPtr;
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end {else if}
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else if rt = cgLong then begin
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if lt in [cgWord,cgUWord] then
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Gen2(pc_cnn, ord(lt), ord(cgLong));
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UsualBinaryConversions := cgLong;
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expressionType := longPtr;
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end {else if}
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else {one operand is unsigned in and the other is int} begin
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UsualBinaryConversions := cgUWord;
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expressionType := uIntPtr;
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end; {else}
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end {if}
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else begin {types are the same}
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UsualBinaryConversions := lt;
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if lt = cgWord then {update types that may have changed}
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expressionType := intPtr;
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end; {else}
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end {if}
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else
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Error(66);
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end; {UsualBinaryConversions}
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function UsualUnaryConversions{: baseTypeEnum};
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{ performs the usual unary conversions }
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{ }
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{ inputs: }
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{ expressionType - type of the operand }
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{ }
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{ result: }
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{ The base type of the operation to perform is returned. }
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{ Any conversion code necessary has been generated. }
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{ }
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{ outputs: }
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{ expressionType - set to result type }
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var
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et: baseTypeEnum; {work variables}
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begin {UsualUnaryConversions}
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UsualUnaryConversions := cgULong;
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if expressionType^.kind = scalarType then begin
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et := Unary(expressionType^.baseType);
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UsualUnaryConversions := et;
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if et = cgWord then {update types that may have changed}
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expressionType := intPtr;
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end {if}
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{else if expressionType^.kind in [arrayType,pointerType] then
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UsualUnaryConversions := cgULong};
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end; {UsualUnaryConversions}
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procedure DisposeTree {tree: tokenPtr};
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{ dispose of an expression tree }
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{ }
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{ parameters: }
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{ tree - head of the expression tree to dispose of }
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begin {DisposeTree}
|
|
if tree <> nil then begin
|
|
DisposeTree(tree^.left);
|
|
DisposeTree(tree^.middle);
|
|
DisposeTree(tree^.right);
|
|
dispose(tree);
|
|
end; {if}
|
|
end; {DisposeTree}
|
|
|
|
|
|
procedure AssignmentConversion {t1, t2: typePtr; isConstant: boolean;
|
|
value: longint; genCode, checkConst: boolean};
|
|
|
|
{ TOS is of type t2, and is about to be stored to a variable of }
|
|
{ type t1 by an assignment or a return statement. Make sure }
|
|
{ this is legal, and do any necessary type conversions on t2, }
|
|
{ which is on the top of the evaluation stack. Flag an error }
|
|
{ if the conversion is illegal. }
|
|
{ }
|
|
{ parameters: }
|
|
{ t1 - type of the variable }
|
|
{ t2 - type of the expression }
|
|
{ isConstant - is the rhs a constant? }
|
|
{ value - if isConstant = true, then this is the value }
|
|
{ genCode - should conversion code be generated? }
|
|
{ checkConst - check for assignments to constants? }
|
|
|
|
var
|
|
baseType1,baseType2: baseTypeEnum; {temp variables (for speed)}
|
|
kind1,kind2: typeKind; {temp variables (for speed)}
|
|
|
|
begin {AssignmentConversion}
|
|
kind1 := t1^.kind;
|
|
kind2 := t2^.kind;
|
|
if t1^.isConstant then
|
|
if genCode then
|
|
if checkConst then
|
|
Error(93);
|
|
if kind2 = definedType then
|
|
AssignmentConversion(t1, t2^.dType, false, 0, genCode, checkConst)
|
|
else if kind1 = definedType then
|
|
AssignmentConversion(t1^.dType, t2, false, 0, genCode, checkConst)
|
|
else if kind2 in
|
|
[scalarType,pointerType,enumType,structType,unionType,arrayType,functionType] then
|
|
case kind1 of
|
|
|
|
scalarType: begin
|
|
baseType1 := t1^.baseType;
|
|
if baseType1 in [cgReal,cgDouble,cgComp] then
|
|
baseType1 := cgExtended;
|
|
if baseType1 = cgString then
|
|
Error(64)
|
|
else if baseType1 = cgVoid then
|
|
Error(65)
|
|
else if kind2 = enumType then begin
|
|
if genCode then
|
|
Gen2(pc_cnv, ord(cgWord), ord(baseType1));
|
|
end {else if}
|
|
else if kind2 = scalarType then begin
|
|
baseType2 := t2^.baseType;
|
|
if baseType2 in [cgString,cgVoid] then
|
|
Error(47)
|
|
else if genCode then begin
|
|
if t1^.cType = ctBool then begin
|
|
expressionType := t2;
|
|
CompareToZero(pc_neq);
|
|
end {if}
|
|
else
|
|
Gen2(pc_cnv, ord(baseType2), ord(baseType1));
|
|
end {else if}
|
|
end {else if}
|
|
else if (t1^.cType = ctBool)
|
|
and (kind2 in [pointerType,arrayType]) then begin
|
|
if genCode then begin
|
|
expressionType := t2;
|
|
CompareToZero(pc_neq);
|
|
end {if}
|
|
end {else if}
|
|
else
|
|
Error(47);
|
|
end;
|
|
|
|
arrayType: ;
|
|
{any errors are handled elsewhere}
|
|
|
|
functionType,enumConst:
|
|
Error(47);
|
|
|
|
pointerType: begin
|
|
if kind2 = pointerType then begin
|
|
if not CompTypes(t1, t2) then
|
|
Error(47);
|
|
end {if}
|
|
else if kind2 = arrayType then begin
|
|
if not CompTypes(t1^.ptype, t2^.atype) then
|
|
if t1^.ptype^.baseType <> cgVoid then
|
|
Error(47);
|
|
end {if}
|
|
else if kind2 = scalarType then begin
|
|
if isConstant and (value = 0) then begin
|
|
if genCode then
|
|
Gen2(pc_cnv, ord(t2^.baseType), ord(cgULong));
|
|
end {if}
|
|
else
|
|
Error(47);
|
|
end {else if}
|
|
else
|
|
Error(47);
|
|
end;
|
|
|
|
enumType: begin
|
|
if kind2 = scalarType then begin
|
|
baseType2 := t2^.baseType;
|
|
if baseType2 in [cgString,cgVoid] then
|
|
Error(47)
|
|
else if genCode then
|
|
Gen2(pc_cnv, ord(baseType2), ord(cgWord));
|
|
end {if}
|
|
else if kind2 <> enumType then
|
|
Error(47);
|
|
end;
|
|
|
|
definedType:
|
|
AssignmentConversion(t1^.dType, t2, isConstant, value, genCode,
|
|
checkConst);
|
|
|
|
structType,unionType:
|
|
if not CompTypes(t1, t2) then
|
|
Error(47);
|
|
|
|
otherwise: Error(57);
|
|
|
|
end; {case T1^.kind}
|
|
|
|
expressionType := t1; {set the type of the expression}
|
|
end; {AssignmentConversion}
|
|
|
|
|
|
function ExpressionTree (kind: expressionKind; stopSym: tokenSet): tokenPtr;
|
|
|
|
{ generate an expression tree }
|
|
{ }
|
|
{ Returns a pointer to the generated tree. The pointer is }
|
|
{ nil, and the variable errorFound is set to true, if an }
|
|
{ error is found. }
|
|
{ }
|
|
{ parameters: }
|
|
{ kind - Kind of expression; determines what operations }
|
|
{ and what kind of operands are allowed. }
|
|
{ stopSym - Set of symbols that can mark the end of an }
|
|
{ expression; used to skip tokens after syntax }
|
|
{ errors and to block certain operations. For }
|
|
{ example, the comma operator is not allowed in }
|
|
{ an expression when evaluating a function }
|
|
{ parameter list. }
|
|
|
|
label 1,2,3;
|
|
|
|
var
|
|
done,done2: boolean; {for loop termination}
|
|
doingSizeof: boolean; {used to test for a sizeof operator}
|
|
doingAlignof: boolean; {used to test for an _Alignof operator}
|
|
expectingTerm: boolean; {should the next token be a term?}
|
|
opStack: tokenPtr; {operation stack}
|
|
parenCount: integer; {# of open parenthesis}
|
|
stack: tokenPtr; {operand stack}
|
|
|
|
op,sp: tokenPtr; {work pointers}
|
|
|
|
|
|
procedure ComplexTerm;
|
|
|
|
{ handle complex terms }
|
|
|
|
var
|
|
done: boolean; {for loop termination}
|
|
namePtr: stringPtr; {name of struct/union fields}
|
|
sp,tp,tm: tokenPtr; {work pointers}
|
|
|
|
begin {ComplexTerm}
|
|
while token.kind in
|
|
[lbrackch,lparench,dotch,minusgtop,plusplusop,minusminusop] do begin
|
|
case token.kind of
|
|
|
|
lbrackch: begin {subscripting}
|
|
NextToken; {skip the '['}
|
|
new(sp); {evaluate the subscript}
|
|
sp^.token.kind := plusch;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := stack;
|
|
stack := stack^.next;
|
|
sp^.middle := nil;
|
|
sp^.right := ExpressionTree(normalExpression, [rbrackch]);
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
Match(rbrackch,24); {skip the ']'}
|
|
new(sp); {resolve the pointer}
|
|
sp^.token.kind := uasterisk;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := stack;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack^.next;
|
|
stack := sp;
|
|
end;
|
|
|
|
lparench: begin {function call}
|
|
NextToken;
|
|
new(sp); {create a parameter list terminator}
|
|
sp^.token.kind := parameteroper;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := nil;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
if token.kind <> rparench {evaluate the parameters}
|
|
then begin
|
|
done := false;
|
|
repeat
|
|
if token.kind in [rparench,eofsy] then begin
|
|
done := true;
|
|
Error(35);
|
|
end {if}
|
|
else begin
|
|
new(sp);
|
|
sp^.token.kind := parameteroper;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := nil;
|
|
sp^.middle :=
|
|
ExpressionTree(normalExpression, [rparench,commach]);
|
|
sp^.right := stack;
|
|
sp^.next := stack^.next;
|
|
stack := sp;
|
|
if token.kind = commach then
|
|
NextToken
|
|
else
|
|
done := true;
|
|
end; {else}
|
|
until done;
|
|
end; {if}
|
|
sp := stack;
|
|
stack := sp^.next;
|
|
sp^.left := stack;
|
|
sp^.next := stack^.next;
|
|
stack := sp;
|
|
Match(rparench,12);
|
|
end;
|
|
|
|
dotch,minusgtop: begin {direct and indirect selection}
|
|
if token.kind = minusgtop then begin
|
|
new(sp); {e->name == (*e).name}
|
|
sp^.token.kind := uasterisk;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := stack;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack^.next;
|
|
stack := sp;
|
|
token.kind := dotch;
|
|
token.class := reservedSymbol;
|
|
end; {if}
|
|
new(sp); {create a record for the selection operator}
|
|
sp^.token := token;
|
|
sp^.left := stack;
|
|
stack := stack^.next;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
NextToken; {skip the operator}
|
|
if token.kind in [ident,typedef] then begin
|
|
namePtr := token.name; {record the name}
|
|
new(sp); {record the selection field}
|
|
sp^.token := token;
|
|
sp^.left := nil;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
stack^.right := sp; {this becomes the right opnd}
|
|
NextToken; {skip the field name}
|
|
end {if}
|
|
else
|
|
Error(9);
|
|
end;
|
|
|
|
plusplusop: begin {postfix ++}
|
|
NextToken;
|
|
new(sp);
|
|
sp^.token.kind := opplusplus;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := stack;
|
|
stack := stack^.next;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
end;
|
|
|
|
minusminusop: begin {postfix --}
|
|
NextToken;
|
|
new(sp);
|
|
sp^.token.kind := opminusminus;
|
|
sp^.token.class := reservedSymbol;
|
|
sp^.left := stack;
|
|
stack := stack^.next;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
end;
|
|
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
end; {while}
|
|
end; {ComplexTerm}
|
|
|
|
|
|
procedure DoOperand;
|
|
|
|
{ process an operand }
|
|
|
|
label 1,2;
|
|
|
|
var
|
|
fnPtr: typePtr; {for defining functions on the fly}
|
|
fToken: tokenType; {used to save function name token}
|
|
id: identPtr; {pointer to an id's symbol table entry}
|
|
np: stringPtr; {for forming global names}
|
|
sp: tokenPtr; {work pointer}
|
|
|
|
begin {DoOperand}
|
|
{create an operand on the stack}
|
|
new(sp);
|
|
sp^.token := token;
|
|
sp^.next := stack;
|
|
sp^.left := nil;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
stack := sp;
|
|
|
|
{handle the preprocessor 'defined' function}
|
|
if kind = preprocessorExpression then
|
|
if token.name^ = 'defined' then begin
|
|
expandMacros := false;
|
|
NextToken;
|
|
sp^.token.kind := intconst;
|
|
sp^.token.class := intConstant;
|
|
if token.kind in [ident,typedef] then begin
|
|
sp^.token.ival := ord(IsDefined(token.name));
|
|
NextToken;
|
|
end {if}
|
|
else begin
|
|
Match(lparench, 13);
|
|
if token.kind in [ident,typedef] then begin
|
|
sp^.token.ival := ord(IsDefined(token.name));
|
|
NextToken;
|
|
end {if}
|
|
else begin
|
|
Error(9);
|
|
sp^.token.ival := 0;
|
|
end; {else}
|
|
Match(rparench, 12);
|
|
end; {else}
|
|
expandMacros := true;
|
|
goto 1;
|
|
end; {if}
|
|
|
|
{check for illegal use}
|
|
id := FindSymbol(token, variableSpace, false, true);
|
|
if not (kind in
|
|
[normalExpression,initializerExpression,autoInitializerExpression])
|
|
then begin
|
|
if id <> nil then
|
|
if id^.itype^.kind = enumConst then
|
|
goto 2;
|
|
if kind <> preprocessorExpression then begin
|
|
op := opStack;
|
|
while op <> nil do begin
|
|
if op^.token.kind = sizeofsy then
|
|
goto 2;
|
|
op := op^.next;
|
|
end; {while}
|
|
Error(41);
|
|
errorFound := true;
|
|
end; {if}
|
|
end; {if}
|
|
2:
|
|
{skip the name}
|
|
fToken := token;
|
|
NextToken;
|
|
|
|
{in the preprocessor, all identifiers (post macro replacement) become 0}
|
|
if kind = preprocessorExpression then begin
|
|
stack^.token.class := longlongConstant;
|
|
stack^.token.kind := longlongconst;
|
|
stack^.token.qval := longlong0;
|
|
end {if}
|
|
|
|
{if the id is not declared, create a function returning integer}
|
|
else if id = nil then begin
|
|
if (fToken.name^ = '__func__') and (functionTable <> nil) then
|
|
id := MakeFuncIdentifier
|
|
else if token.kind = lparench then begin
|
|
fnPtr := pointer(GCalloc(sizeof(typeRecord)));
|
|
{fnPtr^.size := 0;}
|
|
{fnPtr^.saveDisp := 0;}
|
|
{fnPtr^.isConstant := false;}
|
|
fnPtr^.kind := functionType;
|
|
fnPtr^.fType := intPtr;
|
|
{fnPtr^.varargs := false;}
|
|
{fnPtr^.prototyped := false;}
|
|
{fnPtr^.overrideKR := false;}
|
|
{fnPtr^.parameterList := nil;}
|
|
{fnPtr^.isPascal := false;}
|
|
{fnPtr^.toolNum := 0;}
|
|
{fnPtr^.dispatcher := 0;}
|
|
np := pointer(GMalloc(length(fToken.name^)+1));
|
|
CopyString(pointer(np), pointer(fToken.name));
|
|
id := NewSymbol(np, fnPtr, ident, variableSpace, declared);
|
|
if ((lint & lintUndefFn) <> 0) or ((lint & lintC99Syntax) <> 0) then
|
|
Error(51);
|
|
end {if}
|
|
else begin
|
|
Error(31);
|
|
errorFound := true;
|
|
end; {else}
|
|
end {if id = nil}
|
|
else if id^.itype^.kind = enumConst then begin
|
|
stack^.token.class := intConstant;
|
|
stack^.token.kind := intconst;
|
|
stack^.token.ival := id^.itype^.eval;
|
|
end; {else if}
|
|
stack^.id := id; {save the identifier}
|
|
ComplexTerm; {handle subscripts, selection, etc.}
|
|
1:
|
|
end; {DoOperand}
|
|
|
|
|
|
procedure Operation;
|
|
|
|
{ do an operation }
|
|
|
|
label 1,2,3,4;
|
|
|
|
var
|
|
baseType: baseTypeEnum; {base type of value to cast}
|
|
class: tokenClass; {class of cast token}
|
|
ekind: tokenEnum; {kind of constant expression}
|
|
kindLeft, kindRight: tokenEnum; {kinds of operands}
|
|
lCodeGeneration: boolean; {local copy of codeGeneration}
|
|
op: tokenPtr; {work pointer}
|
|
op1,op2: longint; {for evaluating constant expressions}
|
|
rop1,rop2: extended; {for evaluating fp expressions}
|
|
llop1, llop2: longlong; {for evaluating long long expressions}
|
|
tp: typePtr; {cast type}
|
|
unsigned: boolean; {is the term unsigned?}
|
|
|
|
|
|
function Pop: tokenPtr;
|
|
|
|
{ pop an operand, returning its pointer }
|
|
|
|
begin {Pop}
|
|
if stack = nil then begin
|
|
Error(36);
|
|
errorFound := true;
|
|
new(stack); {synthesize the missing token}
|
|
stack^.token.class := intConstant;
|
|
stack^.token.kind := intconst;
|
|
stack^.token.ival := 0;
|
|
stack^.next := nil;
|
|
stack^.left := nil;
|
|
stack^.middle := nil;
|
|
stack^.right := nil;
|
|
end; {if}
|
|
Pop := stack;
|
|
stack := stack^.next;
|
|
end; {Pop}
|
|
|
|
|
|
function RealVal (token: tokenType): extended;
|
|
|
|
{ convert an operand to a real value }
|
|
|
|
begin {RealVal}
|
|
if token.kind in [intconst,charconst,scharconst,ucharconst] then
|
|
RealVal := token.ival
|
|
else if token.kind = uintconst then begin
|
|
if token.ival < 0 then
|
|
RealVal := (token.ival & $7FFF) + 32768.0
|
|
else
|
|
RealVal := token.ival;
|
|
end {else if}
|
|
else if token.kind = longconst then
|
|
RealVal := token.lval
|
|
else if token.kind = ulongconst then begin
|
|
if token.lval < 0 then
|
|
RealVal := (token.lval & $7FFFFFFF) + 2147483648.0
|
|
else
|
|
RealVal := token.lval;
|
|
end {else if}
|
|
else if token.kind = longlongconst then
|
|
RealVal := CnvLLX(token.qval)
|
|
else if token.kind = ulonglongconst then
|
|
RealVal := CnvULLX(token.qval)
|
|
else
|
|
RealVal := token.rval;
|
|
end; {RealVal}
|
|
|
|
|
|
function IntVal (token: tokenType): longint;
|
|
|
|
{ convert an operand to a longint value }
|
|
|
|
begin {IntVal}
|
|
if token.kind in [intconst,charconst,scharconst,ucharconst] then
|
|
IntVal := token.ival
|
|
else if token.kind = uintconst then begin
|
|
IntVal := token.ival & $0000FFFF;
|
|
end {else if}
|
|
else {if token.kind in [longconst,ulongconst] then} begin
|
|
IntVal := token.lval;
|
|
end; {else}
|
|
end; {IntVal}
|
|
|
|
|
|
procedure GetLongLongVal (var result: longlong; token: tokenType);
|
|
|
|
{ convert an operand to a long long value }
|
|
|
|
begin {LongLongVal}
|
|
if token.kind in [intconst,charconst,scharconst,ucharconst] then begin
|
|
result.lo := token.ival;
|
|
if result.lo < 0 then
|
|
result.hi := -1
|
|
else
|
|
result.hi := 0;
|
|
end {if}
|
|
else if token.kind = uintconst then begin
|
|
result.lo := token.ival & $0000FFFF;
|
|
result.hi := 0;
|
|
end {else if}
|
|
else if token.kind = longconst then begin
|
|
result.lo := token.lval;
|
|
if result.lo < 0 then
|
|
result.hi := -1
|
|
else
|
|
result.hi := 0;
|
|
end {else if}
|
|
else if token.kind = ulongconst then begin
|
|
result.lo := token.lval;
|
|
result.hi := 0;
|
|
end {else if}
|
|
else {if token.kind in [longlongconst,ulonglongconst] then} begin
|
|
result := token.qval;
|
|
end; {else}
|
|
end; {LongLongVal}
|
|
|
|
|
|
function PPKind (token: tokenType): tokenEnum;
|
|
|
|
{ adjust kind of token for use in preprocessor expression }
|
|
|
|
begin {PPKind}
|
|
if token.kind in [intconst,longconst] then
|
|
PPKind := longlongconst
|
|
else if token.kind in [uintconst,ulongconst] then
|
|
PPKind := ulonglongconst
|
|
else
|
|
PPKind := token.kind;
|
|
end; {PPKind}
|
|
|
|
|
|
begin {Operation}
|
|
op := opStack; {pop the operation}
|
|
opStack := op^.next;
|
|
case op^.token.kind of
|
|
|
|
commach: begin {,}
|
|
op^.right := Pop;
|
|
op^.left := Pop;
|
|
end;
|
|
|
|
eqch, {=}
|
|
pluseqop, {+=}
|
|
minuseqop, {-=}
|
|
asteriskeqop, {*=}
|
|
slasheqop, {/=}
|
|
percenteqop, {%=}
|
|
ltlteqop, {<<=}
|
|
gtgteqop, {>>=}
|
|
andeqop, {&=}
|
|
caroteqop, {^=}
|
|
bareqop: begin {|=}
|
|
op^.right := Pop;
|
|
op^.left := Pop;
|
|
end;
|
|
|
|
colonch: begin {? :}
|
|
op^.right := Pop;
|
|
op^.middle := Pop;
|
|
op^.left := Pop;
|
|
if op^.right^.token.kind in [intconst,uintconst,
|
|
longconst,ulongconst,longlongconst,ulonglongconst,
|
|
charconst,scharconst,ucharconst] then
|
|
if op^.left^.token.kind in [intconst,uintconst,
|
|
longconst,ulongconst,longlongconst,ulonglongconst,
|
|
charconst,scharconst,ucharconst] then
|
|
if op^.middle^.token.kind in [intconst,uintconst,
|
|
longconst,ulongconst,longlongconst,ulonglongconst,
|
|
charconst,scharconst,ucharconst] then begin
|
|
GetLongLongVal(llop1, op^.left^.token);
|
|
if (llop1.lo <> 0) or (llop1.hi <> 0) then
|
|
op^.token := op^.middle^.token
|
|
else
|
|
op^.token := op^.right^.token;
|
|
dispose(op^.left);
|
|
dispose(op^.right);
|
|
dispose(op^.middle);
|
|
op^.left := nil;
|
|
op^.right := nil;
|
|
op^.middle := nil;
|
|
end; {if}
|
|
end;
|
|
|
|
questionch: begin {error -> ? should not be unmatched}
|
|
Error(29);
|
|
errorFound := true;
|
|
end;
|
|
|
|
barbarop, {||}
|
|
andandop, {&&}
|
|
carotch, {^}
|
|
barch, {|}
|
|
andch, {&}
|
|
eqeqop, {==}
|
|
exceqop, {!=}
|
|
ltch, {<}
|
|
gtch, {>}
|
|
lteqop, {<=}
|
|
gteqop, {>=}
|
|
ltltop, {<<}
|
|
gtgtop, {>>}
|
|
plusch, {+}
|
|
minusch, {-}
|
|
asteriskch, {*}
|
|
slashch, {/}
|
|
percentch: begin {%}
|
|
op^.right := Pop;
|
|
op^.left := Pop;
|
|
kindRight := op^.right^.token.kind;
|
|
kindLeft := op^.left^.token.kind;
|
|
if kindRight in [intconst,uintconst,longconst,ulongconst,
|
|
charconst,scharconst,ucharconst] then begin
|
|
if kindLeft in [intconst,uintconst,longconst,ulongconst,
|
|
charconst,scharconst,ucharconst] then begin
|
|
if kind = preprocessorExpression then
|
|
goto 2;
|
|
|
|
{do the usual binary conversions}
|
|
if (kindRight = ulongconst) or (kindLeft = ulongconst) then
|
|
ekind := ulongconst
|
|
else if (kindRight = longconst) or (kindLeft = longconst) then
|
|
ekind := longconst
|
|
else if (kindRight = uintconst) or (kindLeft = uintconst) then
|
|
ekind := uintconst
|
|
else
|
|
ekind := intconst;
|
|
|
|
{evaluate a constant operation}
|
|
unsigned := ekind in [uintconst,ulongconst];
|
|
op1 := IntVal(op^.left^.token);
|
|
op2 := IntVal(op^.right^.token);
|
|
dispose(op^.right);
|
|
op^.right := nil;
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
case op^.token.kind of
|
|
barbarop : begin {||}
|
|
op1 := ord((op1 <> 0) or (op2 <> 0));
|
|
ekind := intconst;
|
|
end;
|
|
andandop : begin {&&}
|
|
op1 := ord((op1 <> 0) and (op2 <> 0));
|
|
ekind := intconst;
|
|
end;
|
|
carotch : op1 := op1 ! op2; {^}
|
|
barch : op1 := op1 | op2; {|}
|
|
andch : op1 := op1 & op2; {&}
|
|
eqeqop : begin {==}
|
|
op1 := ord(op1 = op2);
|
|
ekind := intconst;
|
|
end;
|
|
exceqop : begin {!=}
|
|
op1 := ord(op1 <> op2);
|
|
ekind := intconst;
|
|
end;
|
|
ltch : begin {<}
|
|
if unsigned then
|
|
op1 := ult(op1,op2)
|
|
else
|
|
op1 := ord(op1 < op2);
|
|
ekind := intconst;
|
|
end;
|
|
gtch : begin {>}
|
|
if unsigned then
|
|
op1 := ugt(op1,op2)
|
|
else
|
|
op1 := ord(op1 > op2);
|
|
ekind := intconst;
|
|
end;
|
|
lteqop : begin {<=}
|
|
if unsigned then
|
|
op1 := ule(op1,op2)
|
|
else
|
|
op1 := ord(op1 <= op2);
|
|
ekind := intconst;
|
|
end;
|
|
gteqop : begin {>=}
|
|
if unsigned then
|
|
op1 := uge(op1,op2)
|
|
else
|
|
op1 := ord(op1 >= op2);
|
|
ekind := intconst;
|
|
end;
|
|
ltltop : begin {<<}
|
|
op1 := op1 << op2;
|
|
ekind := kindLeft;
|
|
end;
|
|
gtgtop : begin {>>}
|
|
if kindLeft in [uintconst,ulongconst] then
|
|
op1 := lshr(op1,op2)
|
|
else
|
|
op1 := op1 >> op2;
|
|
ekind := kindLeft;
|
|
end;
|
|
plusch : op1 := op1 + op2; {+}
|
|
minusch : op1 := op1 - op2; {-}
|
|
asteriskch : if unsigned then {*}
|
|
op1 := umul(op1,op2)
|
|
else
|
|
op1 := op1 * op2;
|
|
slashch : begin {/}
|
|
if op2 = 0 then begin
|
|
Error(109);
|
|
op2 := 1;
|
|
end; {if}
|
|
if unsigned then
|
|
op1 := udiv(op1,op2)
|
|
else
|
|
op1 := op1 div op2;
|
|
end;
|
|
percentch : begin {%}
|
|
if op2 = 0 then begin
|
|
Error(109);
|
|
op2 := 1;
|
|
end; {if}
|
|
if unsigned then
|
|
op1 := umod(op1,op2)
|
|
else
|
|
op1 := op1 - (op1 div op2) * op2;
|
|
end;
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
if ((lint & lintOverflow) <> 0) then begin
|
|
if op^.token.kind in [plusch,minusch,asteriskch,slashch] then
|
|
if ekind = intConst then
|
|
if op1 <> long(op1).lsw then
|
|
Error(128);
|
|
if op^.token.kind in [ltltop,gtgtop] then begin
|
|
if ekind in [intConst,uintConst] then
|
|
if (op2 < 0) or (op2 > 15) then
|
|
Error(130);
|
|
if ekind in [longConst,ulongConst] then
|
|
if (op2 < 0) or (op2 > 31) then
|
|
Error(130);
|
|
end; {if}
|
|
end; {if}
|
|
op^.token.kind := ekind;
|
|
if ekind in [longconst,ulongconst] then begin
|
|
op^.token.lval := op1;
|
|
op^.token.class := longConstant;
|
|
end {if}
|
|
else begin
|
|
op^.token.ival := long(op1).lsw;
|
|
op^.token.class := intConstant;
|
|
end; {else}
|
|
goto 1;
|
|
end; {if}
|
|
end; {if}
|
|
2:
|
|
if kindRight in [intconst,uintconst,longconst,ulongconst,
|
|
longlongconst,ulonglongconst,charconst,scharconst,ucharconst]
|
|
then begin
|
|
if kindLeft in [intconst,uintconst,longconst,ulongconst,
|
|
longlongconst,ulonglongconst,charconst,scharconst,ucharconst]
|
|
then begin
|
|
|
|
if kind = preprocessorExpression then begin
|
|
kindLeft := PPKind(op^.left^.token);
|
|
kindRight := PPKind(op^.right^.token);
|
|
end; {if}
|
|
|
|
{do the usual binary conversions}
|
|
if (kindRight = ulonglongconst) or (kindLeft = ulonglongconst) then
|
|
ekind := ulonglongconst
|
|
else
|
|
ekind := longlongconst;
|
|
|
|
unsigned := ekind = ulonglongconst;
|
|
GetLongLongVal(llop1, op^.left^.token);
|
|
GetLongLongVal(llop2, op^.right^.token);
|
|
|
|
case op^.token.kind of
|
|
barbarop : begin {||}
|
|
llop1.lo :=
|
|
ord((llop1.lo <> 0) or (llop1.hi <> 0) or
|
|
(llop2.lo <> 0) or (llop2.hi <> 0));
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
andandop : begin {&&}
|
|
llop1.lo :=
|
|
ord(((llop1.lo <> 0) or (llop1.hi <> 0)) and
|
|
((llop2.lo <> 0) or (llop2.hi <> 0)));
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
carotch : begin {^}
|
|
llop1.lo := llop1.lo ! llop2.lo;
|
|
llop1.hi := llop1.hi ! llop2.hi;
|
|
end;
|
|
barch : begin {|}
|
|
llop1.lo := llop1.lo | llop2.lo;
|
|
llop1.hi := llop1.hi | llop2.hi;
|
|
end;
|
|
andch : begin {&}
|
|
llop1.lo := llop1.lo & llop2.lo;
|
|
llop1.hi := llop1.hi & llop2.hi;
|
|
end;
|
|
eqeqop : begin {==}
|
|
llop1.lo := ord((llop1.lo = llop2.lo) and
|
|
(llop1.hi = llop2.hi));
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
exceqop : begin {!=}
|
|
llop1.lo := ord((llop1.lo <> llop2.lo) or
|
|
(llop1.hi <> llop2.hi));
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
ltch : begin {<}
|
|
if unsigned then
|
|
llop1.lo := ult64(llop1, llop2)
|
|
else
|
|
llop1.lo := slt64(llop1, llop2);
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
gtch : begin {>}
|
|
if unsigned then
|
|
llop1.lo := ugt64(llop1, llop2)
|
|
else
|
|
llop1.lo := sgt64(llop1, llop2);
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
lteqop : begin {<=}
|
|
if unsigned then
|
|
llop1.lo := ule64(llop1, llop2)
|
|
else
|
|
llop1.lo := sle64(llop1, llop2);
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
gteqop : begin {>=}
|
|
if unsigned then
|
|
llop1.lo := uge64(llop1, llop2)
|
|
else
|
|
llop1.lo := sge64(llop1, llop2);
|
|
llop1.hi := 0;
|
|
ekind := intconst;
|
|
end;
|
|
ltltop : begin {<<}
|
|
shl64(llop1, long(llop2.lo).lsw);
|
|
ekind := kindLeft;
|
|
end;
|
|
gtgtop : begin {>>}
|
|
if kindleft = ulonglongconst then
|
|
lshr64(llop1, long(llop2.lo).lsw)
|
|
else
|
|
ashr64(llop1, long(llop2.lo).lsw);
|
|
ekind := kindLeft;
|
|
end;
|
|
plusch : add64(llop1, llop2); {+}
|
|
minusch : sub64(llop1, llop2); {-}
|
|
asteriskch : umul64(llop1, llop2); {*}
|
|
slashch : begin {/}
|
|
if (llop2.lo = 0) and (llop2.hi = 0) then begin
|
|
Error(109);
|
|
llop2 := longlong1;
|
|
end; {if}
|
|
if unsigned then
|
|
udiv64(llop1, llop2)
|
|
else
|
|
div64(llop1, llop2);
|
|
end;
|
|
percentch : begin {%}
|
|
if (llop2.lo = 0) and (llop2.hi = 0) then begin
|
|
Error(109);
|
|
llop2 := longlong1;
|
|
end; {if}
|
|
if unsigned then
|
|
umod64(llop1, llop2)
|
|
else
|
|
rem64(llop1, llop2);
|
|
end;
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
|
|
dispose(op^.right);
|
|
op^.right := nil;
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
op^.token.kind := ekind;
|
|
if ekind in [longlongconst,ulonglongconst] then begin
|
|
op^.token.qval := llop1;
|
|
op^.token.class := longlongConstant;
|
|
end {if}
|
|
else if ekind in [longconst,ulongconst] then begin
|
|
op^.token.lval := llop1.lo;
|
|
op^.token.class := longConstant;
|
|
end {if}
|
|
else begin
|
|
op^.token.ival := long(llop1.lo).lsw;
|
|
op^.token.class := intConstant;
|
|
end; {else}
|
|
goto 1;
|
|
end; {if}
|
|
end; {if}
|
|
|
|
if op^.right^.token.kind in [intconst,uintconst,longconst,ulongconst,
|
|
longlongconst,ulonglongconst,floatconst,doubleconst,extendedconst,
|
|
compconst,charconst,scharconst,ucharconst] then
|
|
if op^.left^.token.kind in [intconst,uintconst,longconst,ulongconst,
|
|
longlongconst,ulonglongconst,floatconst,doubleconst,extendedconst,
|
|
compconst,charconst,scharconst,ucharconst] then
|
|
begin
|
|
if fenvAccess then
|
|
if kind in [normalExpression, autoInitializerExpression] then
|
|
goto 1;
|
|
if (op^.right^.token.kind = compConst)
|
|
and (op^.left^.token.kind = compConst) then
|
|
ekind := compconst
|
|
else if (op^.right^.token.kind in [extendedConst,compConst])
|
|
or (op^.left^.token.kind in [extendedConst,compConst]) then
|
|
ekind := extendedconst
|
|
else if (op^.right^.token.kind = doubleConst)
|
|
or (op^.left^.token.kind = doubleConst) then
|
|
ekind := doubleconst
|
|
else
|
|
ekind := floatconst;
|
|
rop1 := RealVal(op^.left^.token);
|
|
rop2 := RealVal(op^.right^.token);
|
|
dispose(op^.right);
|
|
op^.right := nil;
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
case op^.token.kind of
|
|
barbarop : begin {||}
|
|
op1 := ord((rop1 <> 0.0) or (rop2 <> 0.0));
|
|
ekind := intconst;
|
|
end;
|
|
andandop : begin {&&}
|
|
op1 := ord((rop1 <> 0.0) and (rop2 <> 0.0));
|
|
ekind := intconst;
|
|
end;
|
|
eqeqop : begin {==}
|
|
op1 := ord(rop1 = rop2);
|
|
ekind := intconst;
|
|
end;
|
|
exceqop : begin {!=}
|
|
op1 := ord(rop1 <> rop2);
|
|
ekind := intconst;
|
|
end;
|
|
ltch : begin {<}
|
|
op1 := ord(rop1 < rop2);
|
|
ekind := intconst;
|
|
end;
|
|
gtch : begin {>}
|
|
op1 := ord(rop1 > rop2);
|
|
ekind := intconst;
|
|
end;
|
|
lteqop : begin {<=}
|
|
op1 := ord(rop1 <= rop2);
|
|
ekind := intconst;
|
|
end;
|
|
gteqop : begin {>=}
|
|
op1 := ord(rop1 >= rop2);
|
|
ekind := intconst;
|
|
end;
|
|
plusch : rop1 := rop1 + rop2; {+}
|
|
minusch : rop1 := rop1 - rop2; {-}
|
|
asteriskch : rop1 := rop1 * rop2; {*}
|
|
slashch : rop1 := rop1 / rop2; {/}
|
|
|
|
otherwise : Error(66); {illegal operation}
|
|
end; {case}
|
|
if ekind = intconst then begin
|
|
op^.token.ival := long(op1).lsw;
|
|
op^.token.class := intConstant;
|
|
op^.token.kind := intConst;
|
|
end {if}
|
|
else begin
|
|
op^.token.rval := rop1;
|
|
op^.token.class := realConstant;
|
|
op^.token.kind := ekind;
|
|
end; {else}
|
|
end; {if}
|
|
1:
|
|
end;
|
|
|
|
plusplusop, {prefix ++}
|
|
minusminusop, {prefix --}
|
|
opplusplus, {postfix ++}
|
|
opminusminus, {postfix --}
|
|
sizeofsy, {sizeof}
|
|
_Alignofsy, {_Alignof (erroneous uses)}
|
|
castoper, {(type)}
|
|
typedef, {(type-name)}
|
|
tildech, {~}
|
|
excch, {!}
|
|
uminus, {unary -}
|
|
uand, {unary &}
|
|
uasterisk: begin {unary *}
|
|
op^.left := Pop;
|
|
|
|
if op^.token.kind = sizeofsy then begin
|
|
op^.token.kind := ulongConst;
|
|
op^.token.class := longConstant;
|
|
if op^.left^.token.kind = stringConst then
|
|
op^.token.lval := op^.left^.token.sval^.length+1
|
|
else begin
|
|
lCodeGeneration := codeGeneration;
|
|
codeGeneration := false;
|
|
GenerateCode(op^.left);
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
op^.token.lval := expressionType^.size;
|
|
with expressionType^ do
|
|
if (size = 0) or ((kind = arrayType) and (elements = 0)) then
|
|
Error(49);
|
|
end; {else}
|
|
op^.left := nil;
|
|
end {if sizeofsy}
|
|
|
|
else if op^.token.kind = _Alignofsy then begin
|
|
{error case: operand of _Alignof is not a parenthesized type-name}
|
|
Error(36);
|
|
op^.token.kind := ulongConst;
|
|
op^.token.class := longConstant;
|
|
op^.token.lval := 1;
|
|
dispose(op^.left);
|
|
end {else if _Alignofsy}
|
|
|
|
else if op^.token.kind = castoper then begin
|
|
class := op^.left^.token.class;
|
|
if class in [intConstant,longConstant,longlongconstant,
|
|
realConstant] then begin
|
|
tp := op^.castType;
|
|
while tp^.kind = definedType do
|
|
tp := tp^.dType;
|
|
if tp^.kind = scalarType then begin
|
|
baseType := tp^.baseType;
|
|
if fenvAccess then
|
|
if kind in [normalExpression, autoInitializerExpression] then
|
|
if (baseType in [cgReal,cgDouble,cgComp,cgExtended])
|
|
or (class = realConstant) then
|
|
goto 3;
|
|
if (baseType < cgString) or (baseType in [cgQuad,cgUQuad])
|
|
then begin
|
|
if class = realConstant then begin
|
|
rop1 := RealVal(op^.left^.token);
|
|
if baseType = cgUQuad then
|
|
CnvXULL(llop1, rop1)
|
|
else
|
|
CnvXLL(llop1, rop1);
|
|
end {if}
|
|
else begin {handle integer constants}
|
|
GetLongLongVal(llop1, op^.left^.token);
|
|
if op^.left^.token.kind = ulonglongconst then
|
|
rop1 := CnvULLX(llop1)
|
|
else
|
|
rop1 := CnvLLX(llop1);
|
|
end; {else if}
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
if baseType in [cgByte,cgWord] then begin
|
|
if baseType = cgByte then
|
|
op^.token.kind := scharConst
|
|
else
|
|
op^.token.kind := intConst;
|
|
op^.token.class := intConstant;
|
|
if tp^.cType = ctBool then
|
|
op^.token.ival := ord(rop1 <> 0.0)
|
|
else
|
|
op^.token.ival := long(llop1.lo).lsw;
|
|
if baseType = cgByte then
|
|
with op^.token do begin
|
|
ival := ival & $00FF;
|
|
if (ival & $0080) <> 0 then
|
|
ival := ival | $FF00;
|
|
end; {with}
|
|
end {if}
|
|
else if baseType = cgUWord then begin
|
|
op^.token.kind := uintConst;
|
|
op^.token.class := intConstant;
|
|
op^.token.ival := long(llop1.lo).lsw;
|
|
end {else if}
|
|
else if baseType = cgUByte then begin
|
|
if tp^.cType = ctUChar then
|
|
op^.token.kind := ucharConst
|
|
else
|
|
op^.token.kind := charConst;
|
|
op^.token.class := intConstant;
|
|
op^.token.ival := long(llop1.lo).lsw;
|
|
op^.token.ival := op^.token.ival & $00FF;
|
|
end {else if}
|
|
else if baseType = cgLong then begin
|
|
op^.token.kind := longConst;
|
|
op^.token.class := longConstant;
|
|
op^.token.lval := llop1.lo;
|
|
end {else if}
|
|
else if baseType = cgULong then begin
|
|
op^.token.kind := ulongConst;
|
|
op^.token.class := longConstant;
|
|
op^.token.lval := llop1.lo;
|
|
end {else if}
|
|
else if baseType = cgQuad then begin
|
|
op^.token.kind := longlongConst;
|
|
op^.token.class := longlongConstant;
|
|
op^.token.qval := llop1;
|
|
end {else if}
|
|
else if baseType = cgUQuad then begin
|
|
op^.token.kind := ulonglongConst;
|
|
op^.token.class := longlongConstant;
|
|
op^.token.qval := llop1;
|
|
end {else if}
|
|
else begin
|
|
case baseType of
|
|
cgReal: op^.token.kind := floatConst;
|
|
cgDouble: op^.token.kind := doubleConst;
|
|
cgExtended: op^.token.kind := extendedConst;
|
|
cgComp: op^.token.kind := compConst;
|
|
end; {case}
|
|
op^.token.class := realConstant;
|
|
LimitPrecision(rop1, baseType);
|
|
op^.token.rval := rop1;
|
|
end; {else if}
|
|
end; {if}
|
|
3: end; {if}
|
|
end; {if}
|
|
end {else if castoper}
|
|
|
|
else if not (op^.token.kind in
|
|
[typedef,plusplusop,minusminusop,opplusplus,opminusminus,uand]) then
|
|
begin
|
|
if (kind <> preprocessorExpression) and (op^.left^.token.kind
|
|
in [intconst,uintconst,longconst,ulongconst,charconst,scharconst,
|
|
ucharconst]) then begin
|
|
|
|
{evaluate a constant operation}
|
|
ekind := op^.left^.token.kind;
|
|
if ekind in [charconst,scharconst,ucharconst] then
|
|
ekind := intconst;
|
|
op1 := IntVal(op^.left^.token);
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
case op^.token.kind of
|
|
tildech : op1 := ~op1; {~}
|
|
excch : begin {!}
|
|
op1 := ord(op1 = 0);
|
|
ekind := intconst;
|
|
end;
|
|
uminus : op1 := -op1; {unary -}
|
|
uasterisk : Error(79); {unary *}
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
op^.token.kind := ekind;
|
|
if ekind in [longconst,ulongconst] then begin
|
|
op^.token.class := longConstant;
|
|
op^.token.lval := op1;
|
|
end {if}
|
|
else begin
|
|
op^.token.class := intConstant;
|
|
op^.token.ival := long(op1).lsw;
|
|
end; {else}
|
|
end {if}
|
|
else if op^.left^.token.kind in [longlongconst,ulonglongconst,
|
|
intconst,uintconst,longconst,ulongconst,charconst,scharconst,
|
|
ucharconst] then begin
|
|
|
|
{evaluate a constant operation with long long operand}
|
|
ekind := op^.left^.token.kind;
|
|
if ekind in [charconst,scharconst,ucharconst] then
|
|
ekind := intconst;
|
|
if kind = preprocessorExpression then
|
|
ekind := PPKind(op^.left^.token);
|
|
GetLongLongVal(llop1, op^.left^.token);
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
case op^.token.kind of
|
|
tildech : begin {~}
|
|
llop1.lo := ~llop1.lo;
|
|
llop1.hi := ~llop1.hi;
|
|
end;
|
|
excch : begin {!}
|
|
op1 := ord((llop1.hi = 0) and (llop1.lo = 0));
|
|
ekind := intconst;
|
|
end;
|
|
uminus : begin {unary -}
|
|
llop1.lo := ~llop1.lo;
|
|
llop1.hi := ~llop1.hi;
|
|
llop1.lo := llop1.lo + 1;
|
|
if llop1.lo = 0 then
|
|
llop1.hi := llop1.hi + 1;
|
|
end;
|
|
uasterisk : Error(79); {unary *}
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
op^.token.kind := ekind;
|
|
if ekind in [longlongconst,ulonglongconst] then begin
|
|
op^.token.class := longlongConstant;
|
|
op^.token.qval := llop1;
|
|
end {if}
|
|
else begin
|
|
op^.token.class := intConstant;
|
|
op^.token.ival := long(op1).lsw;
|
|
end; {else}
|
|
end {else if}
|
|
else if op^.left^.token.kind in
|
|
[floatconst,doubleconst,extendedconst,compconst] then begin
|
|
if fenvAccess then
|
|
if kind in [normalExpression, autoInitializerExpression] then
|
|
goto 4;
|
|
ekind := op^.left^.token.kind;
|
|
rop1 := RealVal(op^.left^.token);
|
|
dispose(op^.left);
|
|
op^.left := nil;
|
|
case op^.token.kind of
|
|
uminus : begin {unary -}
|
|
op^.token.class := realConstant;
|
|
op^.token.kind := ekind;
|
|
op^.token.rval := -rop1;
|
|
end;
|
|
excch : begin {!}
|
|
op^.token.class := intConstant;
|
|
op^.token.kind := intconst;
|
|
op^.token.ival := ord(rop1 = 0.0);
|
|
end;
|
|
otherwise : begin {illegal operation}
|
|
Error(66);
|
|
op^.token.class := realConstant;
|
|
op^.token.kind := ekind;
|
|
op^.token.rval := rop1;
|
|
end;
|
|
end; {case}
|
|
end; {if}
|
|
end; {if}
|
|
4:
|
|
end;
|
|
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
op^.next := stack; {place the operation on the operand stack}
|
|
stack := op;
|
|
end; {Operation}
|
|
|
|
|
|
procedure Skip;
|
|
|
|
{ skip all tokens in the remainder of the expression }
|
|
|
|
begin {Skip}
|
|
while not (token.kind in stopSym+[eofsy]) do
|
|
NextToken;
|
|
errorFound := true;
|
|
end; {Skip}
|
|
|
|
|
|
procedure DoGeneric;
|
|
|
|
{ process a generic selection expression }
|
|
|
|
label 10;
|
|
|
|
type
|
|
typeListPtr = ^typeList;
|
|
typeList = record
|
|
next: typeListPtr;
|
|
theType: typePtr;
|
|
end;
|
|
|
|
var
|
|
lCodeGeneration: boolean; {local copy of codeGeneration}
|
|
tempExpr: tokenPtr; {temporary to hold expression trees}
|
|
controllingType: typeRecord; {type of controlling expression}
|
|
typesSeen: typeListPtr; {types that already have associations}
|
|
tl: typeListPtr; {temporary type list pointer}
|
|
resultExpr: tokenPtr; {the result expression}
|
|
defaultExpr: tokenPtr; {the default expression}
|
|
currentType: typePtr; {the type for the current association}
|
|
typesMatch: boolean; {does the current type match}
|
|
foundMatch: boolean; {have we found a matching type?}
|
|
foundDefault: boolean; {have we found the default case?}
|
|
|
|
begin {DoGeneric}
|
|
if not expectingTerm then begin
|
|
Error(36);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
NextToken;
|
|
if token.kind <> lparench then begin
|
|
Error(36);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
new(op); {record it like a parenthesized expr}
|
|
op^.next := opStack;
|
|
op^.left := nil;
|
|
op^.middle := nil;
|
|
op^.right := nil;
|
|
opStack := op;
|
|
op^.token.kind := lparench;
|
|
op^.token.class := reservedSymbol;
|
|
parenCount := parenCount+1;
|
|
NextToken; {process the controlling expression}
|
|
tempExpr := ExpressionTree(normalExpression, [commach]);
|
|
lCodeGeneration := codeGeneration;
|
|
codeGeneration := false;
|
|
GenerateCode(tempExpr);
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
{get controlling type after conversions}
|
|
if expressionType^.kind = functionType then begin
|
|
controllingType.size := cgLongSize;
|
|
controllingType.saveDisp := 0;
|
|
controllingType.isConstant := false;
|
|
controllingType.kind := pointerType;
|
|
controllingType.pType := expressionType;
|
|
end {if}
|
|
else if expressionType^.kind in [structType,unionType] then begin
|
|
controllingType.size := expressionType^.size;
|
|
controllingType.saveDisp := 0;
|
|
controllingType.isConstant := false;
|
|
controllingType.kind := definedType;
|
|
controllingType.dType := expressionType;
|
|
end {else if}
|
|
else
|
|
controllingType := expressionType^;
|
|
if controllingType.kind = arrayType then
|
|
controllingType.kind := pointerType;
|
|
controllingType.isConstant := false;
|
|
|
|
typesSeen := nil;
|
|
resultExpr := nil;
|
|
defaultExpr := nil;
|
|
foundMatch := false;
|
|
foundDefault := false;
|
|
while token.kind = commach do begin {process the generic associations}
|
|
NextToken;
|
|
typesMatch := false;
|
|
if token.kind <> defaultsy then begin
|
|
TypeName; {get the type name}
|
|
currentType := typeSpec;
|
|
if (currentType^.size = 0) or (currentType^.kind = functionType) then
|
|
Error(133);
|
|
tl := typesSeen; {check if it is a duplicate}
|
|
while tl <> nil do begin
|
|
if StrictCompTypes(currentType, tl^.theType) then begin
|
|
Error(158);
|
|
goto 10;
|
|
end; {if}
|
|
tl := tl^.next;
|
|
end; {while}
|
|
new(tl); {record it as seen}
|
|
tl^.next := typesSeen;
|
|
tl^.theType := currentType;
|
|
typesSeen := tl;
|
|
{see if the types match}
|
|
typesMatch := StrictCompTypes(currentType, controllingType);
|
|
if typesMatch then begin
|
|
if foundMatch then begin {sanity check - should never happen}
|
|
typesMatch := false;
|
|
Error(158);
|
|
end; {if}
|
|
foundMatch := true;
|
|
end; {if}
|
|
end {if}
|
|
else begin {handle default association}
|
|
NextToken;
|
|
currentType := nil;
|
|
if foundDefault then
|
|
Error(159);
|
|
foundDefault := true;
|
|
end; {else}
|
|
10:
|
|
if token.kind = colonch then {skip the colon}
|
|
NextToken
|
|
else
|
|
Error(29);
|
|
{get the expression in this association}
|
|
if (currentType = nil) and (defaultExpr = nil) and not foundMatch then
|
|
defaultExpr := ExpressionTree(kind, [commach,rparench])
|
|
else if typesMatch then
|
|
resultExpr := ExpressionTree(kind, [commach,rparench])
|
|
else
|
|
tempExpr := ExpressionTree(normalExpression, [commach,rparench]);
|
|
end; {while}
|
|
if token.kind <> rparench then
|
|
Error(12);
|
|
|
|
if not foundMatch then {use default if no match found}
|
|
if foundDefault then
|
|
resultExpr := defaultExpr;
|
|
if not (foundMatch or foundDefault) then begin
|
|
Error(160); {report error & synthesize a token}
|
|
resultExpr := pointer(Calloc(sizeof(tokenRecord)));
|
|
resultExpr^.token.kind := intconst;
|
|
resultExpr^.token.class := intConstant;
|
|
resultExpr^.token.ival := 0;
|
|
end; {if}
|
|
if resultExpr <> nil then begin
|
|
resultExpr^.next := stack; {stack the resulting expression}
|
|
stack := resultExpr;
|
|
end; {if}
|
|
expectingTerm := false;
|
|
end; {DoGeneric}
|
|
|
|
|
|
begin {ExpressionTree}
|
|
opStack := nil;
|
|
stack := nil;
|
|
if token.kind = typedef then {handle typedefs that are hidden}
|
|
if FindSymbol(token,allSpaces,false,true) <> nil then
|
|
if token.symbolPtr^.class <> typedefsy then
|
|
token.kind := ident;
|
|
if token.kind in startExpression then begin
|
|
expressionValue := 0; {initialize the expression value}
|
|
expectingTerm := true; {the first item should be a term}
|
|
done := false; {convert the expression to postfix form}
|
|
parenCount := 0;
|
|
repeat {scan the token list...}
|
|
if token.kind in startTerm then begin
|
|
|
|
{we must expect a term or unary operand}
|
|
if not expectingTerm then begin
|
|
Error(36);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
if token.kind = ident then
|
|
|
|
{handle a complex operand}
|
|
DoOperand
|
|
else begin
|
|
{handle a constant operand}
|
|
new(sp);
|
|
sp^.token := token;
|
|
sp^.next := stack;
|
|
sp^.left := nil;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
stack := sp;
|
|
if kind in [preprocessorExpression,arrayExpression] then
|
|
if token.kind in [stringconst,floatconst,doubleconst,
|
|
extendedconst,compconst] then begin
|
|
if kind = arrayExpression then begin
|
|
op := opStack;
|
|
if token.kind <> stringconst then
|
|
if op <> nil then
|
|
if op^.token.kind = castoper then
|
|
if op^.casttype^.kind = scalarType then
|
|
if op^.casttype^.baseType in [cgByte,cgUByte,
|
|
cgWord,cgUWord,cgLong,cgULong,cgQuad,cgUQuad]
|
|
then goto 3;
|
|
while op <> nil do begin
|
|
if op^.token.kind = sizeofsy then
|
|
goto 3;
|
|
op := op^.next;
|
|
end; {while}
|
|
end; {if}
|
|
Error(41);
|
|
errorFound := true;
|
|
end; {if}
|
|
3:
|
|
NextToken;
|
|
ComplexTerm;
|
|
end; {else}
|
|
expectingTerm := false; {the next thing should be an operation}
|
|
end {else}
|
|
{handle a closing parenthesis}
|
|
else if (token.kind = rparench) and (parenCount > 0) then begin
|
|
if expectingTerm then begin {make sure it is in a legal spot}
|
|
Error(37);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
while opStack^.token.kind <> lparench do
|
|
Operation; {do pending operations}
|
|
op := opStack;
|
|
opStack := op^.next;
|
|
dispose(op);
|
|
parenCount := parenCount-1;
|
|
NextToken; {skip the ')'}
|
|
ComplexTerm; {handle subscripts, selection, etc.}
|
|
end {else}
|
|
else if token.kind = lparench then begin
|
|
|
|
{handle open paren and type casts}
|
|
if not expectingTerm then begin
|
|
Error(38);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
NextToken;
|
|
if token.kind in specifierQualifierListElement then begin
|
|
doingSizeof := false;
|
|
doingAlignof := false;
|
|
if opStack <> nil then
|
|
if opStack^.token.kind = sizeofsy then
|
|
doingSizeof := true
|
|
else if opStack^.token.kind = _Alignofsy then
|
|
doingAlignof := true;
|
|
TypeName;
|
|
if doingSizeof or doingAlignof then begin
|
|
|
|
{handle a sizeof operator}
|
|
op := opStack;
|
|
opStack := op^.next;
|
|
dispose(op);
|
|
new(sp);
|
|
sp^.next := stack;
|
|
sp^.left := nil;
|
|
sp^.middle := nil;
|
|
sp^.right := nil;
|
|
sp^.token.kind := ulongconst;
|
|
sp^.token.class := longConstant;
|
|
if doingSizeof then
|
|
sp^.token.lval := typeSpec^.size
|
|
else {if doingAlignof then}
|
|
sp^.token.lval := 1;
|
|
with typeSpec^ do
|
|
if (size = 0) or ((kind = arrayType) and (elements = 0)) then
|
|
Error(133);
|
|
sp^.next := stack;
|
|
stack := sp;
|
|
expectingTerm := false;
|
|
end {if}
|
|
else {doing a cast} begin
|
|
|
|
{handle a type cast}
|
|
new(op); {stack the cast operator}
|
|
op^.left := nil;
|
|
op^.middle := nil;
|
|
op^.right := nil;
|
|
op^.castType := typeSpec;
|
|
op^.token.kind := castoper;
|
|
op^.token.class := reservedWord;
|
|
op^.next := opStack;
|
|
opStack := op;
|
|
end; {else}
|
|
Match(rparench,12);
|
|
end {if}
|
|
else begin
|
|
new(op); {record the '('}
|
|
op^.next := opStack;
|
|
op^.left := nil;
|
|
op^.middle := nil;
|
|
op^.right := nil;
|
|
opStack := op;
|
|
op^.token.kind := lparench;
|
|
op^.token.class := reservedSymbol;
|
|
parenCount := parenCount+1;
|
|
end;
|
|
end {else if}
|
|
else if token.kind = _Genericsy then {handle _Generic}
|
|
DoGeneric
|
|
else begin {handle an operation...}
|
|
if expectingTerm then {convert unary operators to separate tokens}
|
|
if token.kind in [asteriskch,minusch,plusch,andch] then
|
|
case token.kind of
|
|
asteriskch: token.kind := uasterisk;
|
|
minusch : token.kind := uminus;
|
|
andch : token.kind := uand;
|
|
plusch : begin
|
|
NextToken;
|
|
goto 2;
|
|
end;
|
|
otherwise : Error(57);
|
|
end; {case}
|
|
if icp[token.kind] = notAnOperation then
|
|
done := true {end of expression found...}
|
|
else if (token.kind in stopSym) and (parenCount = 0) then
|
|
done := true
|
|
else begin
|
|
if not (kind in [normalExpression, autoInitializerExpression]) then
|
|
if (token.kind in
|
|
[plusplusop,minusminusop,eqch,pluseqop,minuseqop,
|
|
opplusplus,opminusminus,
|
|
asteriskeqop,slasheqop,percenteqop,ltlteqop,
|
|
gtgteqop,caroteqop,bareqop,commach])
|
|
or ((kind = preprocessorExpression)
|
|
and (token.kind = sizeofsy))
|
|
or ((kind <> initializerExpression)
|
|
and (token.kind = uand)) then begin
|
|
Error(40);
|
|
errorFound := true;
|
|
end; {if}
|
|
if token.kind in {make sure we get what we want}
|
|
[plusplusop,minusminusop,sizeofsy,_Alignofsy,tildech,excch,
|
|
uasterisk,uminus,uand] then begin
|
|
if not expectingTerm then begin
|
|
Error(38);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
end {if}
|
|
else begin
|
|
if expectingTerm then begin
|
|
Error(37);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
expectingTerm := true;
|
|
{handle 2nd half of ternary operator}
|
|
if token.kind = colonch then begin
|
|
done2 := false; {do pending operations}
|
|
repeat
|
|
if opStack = nil then
|
|
done2 := true
|
|
else if opStack^.token.kind <> questionch then
|
|
Operation
|
|
else
|
|
done2 := true;
|
|
until done2;
|
|
if (opStack = nil) or
|
|
(opStack^.token.kind <> questionch) then begin
|
|
Error(39);
|
|
Skip;
|
|
goto 1;
|
|
end; {if}
|
|
op := opStack;
|
|
opStack := op^.next;
|
|
dispose(op);
|
|
end {if}
|
|
else begin
|
|
done2 := false; {do operations with less precedence}
|
|
repeat
|
|
if opStack = nil then
|
|
done2 := true
|
|
else if isp[opStack^.token.kind] >= icp[token.kind] then
|
|
Operation
|
|
else
|
|
done2 := true;
|
|
until done2;
|
|
end; {else}
|
|
end; {else}
|
|
new(op); {record the operation}
|
|
op^.next := opStack;
|
|
op^.left := nil;
|
|
op^.middle := nil;
|
|
op^.right := nil;
|
|
opStack := op;
|
|
op^.token := token;
|
|
NextToken;
|
|
end; {else}
|
|
end; {else}
|
|
2:
|
|
until done;
|
|
if parenCount > 0 then begin
|
|
Error(12);
|
|
errorFound := true;
|
|
end {if}
|
|
else begin
|
|
while opStack <> nil do {do pending operations}
|
|
Operation;
|
|
{there should be exactly one operand left}
|
|
if (stack = nil) or (stack^.next <> nil) then begin
|
|
Error(36);
|
|
errorFound := true;
|
|
end; {if}
|
|
end; {else}
|
|
end {if}
|
|
else begin {the start of an expression was not found}
|
|
Error(35);
|
|
if not (token.kind in stopSym) then
|
|
NextToken;
|
|
Skip;
|
|
end; {else}
|
|
1:
|
|
if errorFound then begin
|
|
while opStack <> nil do begin
|
|
op := opStack;
|
|
opStack := op^.next;
|
|
dispose(op);
|
|
end; {while}
|
|
while stack <> nil do begin
|
|
sp := stack;
|
|
stack := sp^.next;
|
|
DisposeTree(sp);
|
|
end; {while}
|
|
ExpressionTree := nil;
|
|
end {if}
|
|
else
|
|
ExpressionTree := stack;
|
|
end; {ExpressionTree}
|
|
|
|
|
|
procedure CompareToZero {op: pcodes};
|
|
|
|
{ Compare the result on tos to zero. }
|
|
{ }
|
|
{ This procedure is used by the logical statements to compare }
|
|
{ _any_ scalar result to zero, giving a boolean result. }
|
|
{ }
|
|
{ parameters: }
|
|
{ op - operation to use on the compare }
|
|
|
|
var
|
|
bt: baseTypeEnum; {base type of loaded value}
|
|
|
|
begin {CompareToZero}
|
|
if expressionType^.kind in [pointerType,arrayType] then
|
|
expressionType := uLongPtr;
|
|
if expressionType^.kind = scalarType then begin
|
|
bt := UsualUnaryConversions;
|
|
case bt of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen1t(pc_ldc, 0, cgWord);
|
|
cgLong,cgULong:
|
|
GenLdcLong(0);
|
|
cgQuad,cgUQuad:
|
|
GenLdcQuad(longlong0);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
GenLdcReal(0.0);
|
|
otherwise:
|
|
Error(47);
|
|
end; {case}
|
|
expressionType := intPtr;
|
|
Gen0t(op, bt);
|
|
end {if}
|
|
else
|
|
Error(47);
|
|
end; {CompareToZero}
|
|
|
|
|
|
procedure FreeTemp{labelNum, size: integer};
|
|
|
|
{ place a temporary label in the available label list }
|
|
{ }
|
|
{ parameters: }
|
|
{ labelNum - number of the label to free }
|
|
{ size - size of the variable }
|
|
{ }
|
|
{ variables: }
|
|
{ tempList - list of free labels }
|
|
|
|
var
|
|
tl: tempPtr; {work pointer}
|
|
|
|
begin {FreeTemp}
|
|
new(tl);
|
|
tl^.next := tempList;
|
|
tl^.last := nil;
|
|
tl^.labelNum := labelNum;
|
|
tl^.size := size;
|
|
if tempList <> nil then
|
|
tempList^.last := tl;
|
|
tempList := tl;
|
|
end; {FreeTemp}
|
|
|
|
|
|
function GetTemp{size: integer): integer};
|
|
|
|
{ find a temporary work variable }
|
|
{ }
|
|
{ parameters: }
|
|
{ size - size of the variable }
|
|
{ }
|
|
{ variables: }
|
|
{ tempList - list of free labels }
|
|
{ }
|
|
{ Returns the label number. }
|
|
|
|
label 1;
|
|
|
|
var
|
|
lcodeGeneration: boolean; {local copy of codeGeneration}
|
|
ln: integer; {label number}
|
|
tl: tempPtr; {work pointer}
|
|
|
|
begin {GetTemp}
|
|
{try to find a temp from the existing list}
|
|
tl := tempList;
|
|
while tl <> nil do begin
|
|
if tl^.size = size then begin
|
|
|
|
{found an old one - use it}
|
|
if tl^.last = nil then
|
|
tempList := tl^.next
|
|
else
|
|
tl^.last^.next := tl^.next;
|
|
if tl^.next <> nil then
|
|
tl^.next^.last := tl^.last;
|
|
GetTemp := tl^.labelNum;
|
|
goto 1;
|
|
end; {if}
|
|
tl := tl^.next;
|
|
end; {while}
|
|
|
|
{none found - get a new one}
|
|
ln := GetLocalLabel;
|
|
GetTemp := ln;
|
|
lcodeGeneration := codeGeneration;
|
|
codeGeneration := true;
|
|
Gen2(dc_loc, ln, size);
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
1:
|
|
end; {GetTemp}
|
|
|
|
|
|
procedure LoadScalar (id: identPtr);
|
|
|
|
{ Load a scalar value. }
|
|
{ }
|
|
{ parameters: }
|
|
{ id - ident for value to load }
|
|
|
|
var
|
|
tp: baseTypeEnum; {base type}
|
|
|
|
begin {LoadScalar}
|
|
if id^.itype^.kind = scalarType then
|
|
tp := id^.itype^.baseType
|
|
else {if id^.itype^.kind in [pointerType,arrayType] then}
|
|
tp := cgULong;
|
|
case id^.storage of
|
|
stackFrame, parameter:
|
|
Gen2t(pc_lod, id^.lln, 0, tp);
|
|
external, global, private:
|
|
Gen1tName(pc_ldo, 0, tp, id^.name);
|
|
otherwise: ;
|
|
end; {case}
|
|
end; {LoadScalar}
|
|
|
|
|
|
procedure Cast(tp: typePtr);
|
|
|
|
{ Cast the current expression to the stated type }
|
|
{ }
|
|
{ parameters: }
|
|
{ tp - type to cast to }
|
|
{ }
|
|
{ inputs: }
|
|
{ expressionType - type of the expression to cast }
|
|
{ }
|
|
{ outputs: }
|
|
{ expressionType - set to result type }
|
|
|
|
var
|
|
et,rt: baseTypeEnum; {work variables}
|
|
|
|
begin {Cast}
|
|
if (tp^.kind = scalarType) and (tp^.cType = ctBool) then begin
|
|
CompareToZero(pc_neq);
|
|
end {if}
|
|
else if (tp^.kind = scalarType) and (expressionType^.kind = scalarType) then begin
|
|
rt := tp^.baseType;
|
|
et := expressionType^.baseType;
|
|
if (rt <> et) or (rt in [cgReal,cgDouble,cgComp]) then
|
|
if et <> cgVoid then
|
|
Gen2(pc_cnv, ord(et), ord(rt))
|
|
else
|
|
Error(40);
|
|
end {if}
|
|
else if (tp^.kind = enumType) and (expressionType^.kind = scalarType) then begin
|
|
if expressionType^.baseType <> cgVoid then begin
|
|
rt := cgWord;
|
|
et := Unary(expressionType^.baseType);
|
|
if rt <> et then
|
|
Gen2(pc_cnv, ord(et), ord(rt));
|
|
end {if}
|
|
else
|
|
Error(40);
|
|
end {if}
|
|
else if (tp^.kind = scalarType) and (expressionType^.kind = enumType) then begin
|
|
rt := Unary(tp^.baseType);
|
|
et := cgWord;
|
|
if rt <> et then
|
|
Gen2(pc_cnv, ord(et), ord(rt));
|
|
end {if}
|
|
else if tp^.kind = pointerType then begin
|
|
case expressionType^.kind of
|
|
|
|
scalarType:
|
|
if expressionType^.baseType in
|
|
[cgByte,cgUByte,cgWord,cgUWord,cgLong,cgULong] then
|
|
Gen2(pc_cnv, ord(Unary(expressionType^.baseType)),
|
|
ord(cgULong))
|
|
else if doDispose then
|
|
Error(40);
|
|
|
|
arrayType,pointerType: ;
|
|
|
|
functionType,enumConst,enumType,definedType,structType,unionType:
|
|
if doDispose then
|
|
Error(40);
|
|
|
|
otherwise: Error(57);
|
|
|
|
end; {case}
|
|
end {else if}
|
|
else if expressionType^.kind in [pointerType,arrayType] then begin
|
|
case tp^.kind of
|
|
|
|
scalarType:
|
|
if tp^.baseType in
|
|
[cgByte,cgUByte,cgWord,cgUWord,cgLong,cgULong] then
|
|
Gen2(pc_cnv, ord(cgULong),
|
|
ord(Unary(tp^.baseType)))
|
|
else if tp^.baseType = cgVoid then
|
|
Gen0t(pc_pop, UsualUnaryConversions)
|
|
else
|
|
Error(40);
|
|
|
|
otherwise:
|
|
Error(40);
|
|
end; {case}
|
|
end {else if}
|
|
else if expressionType^.kind in [structType,unionType] then begin
|
|
if tp^.kind = scalarType then
|
|
if tp^.baseType = cgVoid then
|
|
Gen0t(pc_pop, UsualUnaryConversions)
|
|
else Error(40)
|
|
else Error(40);
|
|
end {else if}
|
|
else
|
|
Error(40);
|
|
expressionType := tp;
|
|
end; {Cast}
|
|
|
|
|
|
procedure DoSelection {lType: typePtr; tree: tokenPtr; var size: longint};
|
|
|
|
{ Find the displacement & type for a selection operation }
|
|
{ }
|
|
{ parameters: }
|
|
{ lType - structure/union type }
|
|
{ tree - right-hand tree }
|
|
{ size - disp into the structure/union }
|
|
{ }
|
|
{ returned in non-local variables: }
|
|
{ bitDisp - displacement to bit field }
|
|
{ bitSize - size of bit field }
|
|
{ unsigned - is the bit field unsigned? }
|
|
{ isBitField - is the field a bit field? }
|
|
{ }
|
|
{ variables: }
|
|
{ expressionType - set to the type of the field }
|
|
|
|
label 1;
|
|
|
|
var
|
|
ip: identPtr; {for scanning for the field}
|
|
|
|
begin {DoSelection}
|
|
expressionType := intPtr; {set defaults in case there is an error}
|
|
size := 0;
|
|
if tree^.token.class = identifier then begin
|
|
while lType^.kind = definedType do
|
|
lType := lType^.dType;
|
|
if lType^.kind in [structType,unionType] then begin
|
|
ip := lType^.fieldList; {find a matching field}
|
|
while ip <> nil do begin
|
|
if ip^.name^ = tree^.token.name^ then begin
|
|
if ip^.isForwardDeclared then
|
|
ResolveForwardReference(ip);
|
|
size := ip^.disp; {match found - record parameters}
|
|
expressionType := ip^.itype;
|
|
bitDisp := ip^.bitDisp;
|
|
bitSize := ip^.bitSize;
|
|
isBitField := (bitSize+bitDisp) <> 0;
|
|
unsigned := (ip^.itype^.baseType in [cgUByte,cgUWord,cgULong])
|
|
or (ip^.itype^.cType = ctBool);
|
|
goto 1;
|
|
end; {if}
|
|
ip := ip^.next;
|
|
end; {while}
|
|
Error(81);
|
|
end {if}
|
|
else
|
|
Error(80);
|
|
end; {if}
|
|
1:
|
|
end; {DoSelection}
|
|
|
|
|
|
procedure L_Value(tree: tokenPtr);
|
|
|
|
{ Check for an l-value }
|
|
{ }
|
|
{ parameters: }
|
|
{ tree - expression tree to check }
|
|
|
|
var
|
|
kind: tokenEnum; {for efficiency}
|
|
|
|
begin {L_Value}
|
|
kind := tree^.token.kind;
|
|
|
|
{A variable identifier is an l-value unless it is a function or }
|
|
{non-parameter array }
|
|
if kind = ident then begin
|
|
if tree^.id^.itype^.kind = arrayType then begin
|
|
if tree^.id^.storage <> parameter then
|
|
if doDispose then {prevent spurious errors}
|
|
Error(78);
|
|
end {if}
|
|
else if tree^.id^.itype^.kind in
|
|
[functionType,enumConst,enumType] then
|
|
if doDispose then {prevent spurious errors}
|
|
Error(78);
|
|
end {if}
|
|
|
|
{e.field is an l-value if and only if e is an l-value}
|
|
else if kind = dotch then
|
|
L_Value(tree^.left)
|
|
|
|
{Bypass cast operators }
|
|
{following test removed to flag bug for: }
|
|
{ int *p; long l; }
|
|
{ (long) p = l; }
|
|
{else if kind = castoper then
|
|
L_Value(tree^.left)}
|
|
|
|
{The result of an array subscript (a[i]), indirect selection, }
|
|
{or the indirection operator all show up as the uasterisk }
|
|
{operator at this point. All are l-values, but nothing else }
|
|
{not already allowed is an l-value. }
|
|
else if kind <> uasterisk then
|
|
if doDispose then {prevent spurious errors}
|
|
Error(78);
|
|
end; {L_Value}
|
|
|
|
|
|
procedure ChangePointer (op: pcodes; size: longint; tp: baseTypeEnum);
|
|
|
|
{ Add or subtract an integer to a pointer }
|
|
{ }
|
|
{ The stack has a pointer and an integer (integer on TOS). }
|
|
{ The integer is removed, multiplied by size, and either }
|
|
{ added to or subtracted from the pointer; the result }
|
|
{ replaces the pointer on the stack }
|
|
{ }
|
|
{ parameters: }
|
|
{ op - operation (pc_adl or pc_sbl) }
|
|
{ size - size of one pointer element }
|
|
{ tp - type of the integer operand }
|
|
|
|
begin {ChangePointer}
|
|
if size = 0 then
|
|
Error(122);
|
|
case tp of
|
|
cgByte,cgUByte,cgWord,cgUWord: begin
|
|
if (size = long(size).lsw) and (op = pc_adl)
|
|
and smallMemoryModel and (tp in [cgUByte,cgUWord]) then begin
|
|
if size <> 1 then begin
|
|
Gen1t(pc_ldc, long(size).lsw, cgWord);
|
|
Gen0(pc_umi);
|
|
end; {if}
|
|
Gen0t(pc_ixa, cgUWord);
|
|
end {if}
|
|
else if smallMemoryModel and (size = long(size).lsw) then begin
|
|
if size <> 1 then begin
|
|
Gen1t(pc_ldc, long(size).lsw, cgWord);
|
|
Gen0(pc_umi);
|
|
end; {if}
|
|
Gen2(pc_cnv, ord(tp), ord(cgLong));
|
|
Gen0(op);
|
|
end {else if}
|
|
else begin
|
|
Gen2(pc_cnv, ord(tp), ord(cgLong));
|
|
if size <> 1 then begin
|
|
GenLdcLong(size);
|
|
Gen0(pc_mpl);
|
|
end; {if}
|
|
Gen0(op);
|
|
end;
|
|
end;
|
|
cgLong,cgULong,cgQuad,cgUQuad: begin
|
|
if tp in [cgQuad,cgUQuad] then
|
|
Gen2(pc_cnv, ord(tp), ord(cgLong));
|
|
if size <> 1 then begin
|
|
GenLdcLong(size);
|
|
if tp in [cgLong,cgQuad] then
|
|
Gen0(pc_mpl)
|
|
else
|
|
Gen0(pc_uml);
|
|
end; {if}
|
|
Gen0(op);
|
|
end;
|
|
otherwise:
|
|
Error(66);
|
|
end; {case}
|
|
end; {ChangePointer}
|
|
|
|
|
|
procedure GenerateCode {tree: tokenPtr};
|
|
|
|
{ generate code from a fully formed expression tree }
|
|
{ }
|
|
{ parameters: }
|
|
{ tree - top of the expression tree to generate code from }
|
|
{ }
|
|
{ variables: }
|
|
{ expressionType - result type of the expression }
|
|
|
|
var
|
|
doingScalar: boolean; {temp; for assignment operators}
|
|
et: baseTypeEnum; {temp storage for a base type}
|
|
i: integer; {loop variable}
|
|
isString: boolean; {was the ? : a string?}
|
|
lType: typePtr; {type of operands}
|
|
kind: typeKind; {temp type kind}
|
|
size: longint; {size of an array element}
|
|
t1: integer; {temporary work space label number}
|
|
tlastwasconst: boolean; {temp lastwasconst}
|
|
tlastconst: longint; {temp lastconst}
|
|
tp: tokenPtr; {work pointer}
|
|
tType: typePtr; {temp type of operand}
|
|
|
|
lbitDisp,lbitSize: integer; {for temp storage}
|
|
lisBitField: boolean;
|
|
|
|
|
|
function ExpressionKind (tree: tokenPtr): typeKind;
|
|
|
|
{ returns the type of an expression }
|
|
{ }
|
|
{ This subroutine is used to see if + and - operations }
|
|
{ should do pointer addition. }
|
|
{ }
|
|
{ parameters: }
|
|
{ tree - top of the expression tree to check }
|
|
|
|
var
|
|
ldoDispose: boolean; {local copy of doDispose}
|
|
lcodeGeneration: boolean; {local copy of codeGeneration}
|
|
lexpressionType: typePtr; {local copy of expressionType}
|
|
|
|
begin {ExpressionKind}
|
|
ldoDispose := doDispose; {inhibit disposing of the tree}
|
|
doDispose := false;
|
|
lcodeGeneration := codeGeneration; {inhibit code generation}
|
|
codeGeneration := false;
|
|
lexpressionType := expressionType; {save the expression type}
|
|
|
|
GenerateCode(tree); {get the type}
|
|
while expressionType^.kind = definedType do
|
|
expressionType := expressionType^.dType;
|
|
ExpressionKind := expressionType^.kind;
|
|
|
|
doDispose := ldoDispose; {restore the volatile variables}
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
expressionType := lexpressionType;
|
|
end; {ExpressionKind}
|
|
|
|
|
|
procedure LoadAddress (tree: tokenPtr);
|
|
|
|
{ load the address of an l-value }
|
|
{ }
|
|
{ parameters: }
|
|
{ tree - top of the expression tree to load the }
|
|
{ address of }
|
|
{ }
|
|
{ variables: }
|
|
{ expressionType - result type of the expression }
|
|
{ isBitField - this variable is set to false so that }
|
|
{ it can be used to see if DoSelection was called }
|
|
{ and located a bit field }
|
|
|
|
label 1;
|
|
|
|
var
|
|
eType: typePtr; {work pointer}
|
|
i: integer; {loop variable}
|
|
size: longint; {disp in record}
|
|
tname: stringPtr; {temp name pointer}
|
|
|
|
begin {LoadAddress}
|
|
isBitField := false;
|
|
if tree^.token.kind = ident then begin
|
|
|
|
{load the address of an identifier}
|
|
with tree^.id^ do begin
|
|
tname := name;
|
|
if itype^.kind = functionType then begin
|
|
if itype^.isPascal then begin
|
|
tname := pointer(Malloc(length(name^)+1));
|
|
CopyString(pointer(tname), pointer(name));
|
|
for i := 1 to length(tname^) do
|
|
if tname^[i] in ['a'..'z'] then
|
|
tname^[i] := chr(ord(tname^[i]) & $5F);
|
|
end; {if}
|
|
end; {if}
|
|
case storage of
|
|
stackFrame: Gen2(pc_lda, lln, 0);
|
|
parameter: if itype^.kind = arrayType then
|
|
Gen2t(pc_lod, pln, 0, cgULong)
|
|
else
|
|
Gen2(pc_lda, pln, 0);
|
|
external,
|
|
global,
|
|
private: Gen1Name(pc_lao, 0, tname);
|
|
otherwise: ;
|
|
end; {case}
|
|
eType := pointer(Malloc(sizeof(typeRecord)));
|
|
eType^.size := cgLongSize;
|
|
eType^.saveDisp := 0;
|
|
eType^.isConstant := false;
|
|
eType^.kind := pointerType;
|
|
eType^.pType := iType;
|
|
expressionType := eType;
|
|
end; {with}
|
|
end {if}
|
|
else if tree^.token.kind = uasterisk then begin
|
|
|
|
{load the address of the item pointed to by the pointer}
|
|
GenerateCode(tree^.left);
|
|
isBitField := false;
|
|
if not (expressionType^.kind in [pointerType,arrayType,functionType]) then
|
|
Error(79);
|
|
end {else if}
|
|
else if tree^.token.kind = dotch then begin
|
|
|
|
{load the address of a field of a record}
|
|
LoadAddress(tree^.left);
|
|
eType := expressionType;
|
|
if eType^.kind in [arrayType,pointerType] then begin
|
|
if eType^.kind = arrayType then
|
|
eType := eType^.aType
|
|
else if eType^.kind = pointerType then
|
|
eType := eType^.pType;
|
|
DoSelection(eType, tree^.right, size);
|
|
if size <> 0 then
|
|
if size & $00007FFF = size then
|
|
Gen1t(pc_inc, long(size).lsw, cgULong)
|
|
else begin
|
|
GenLdcLong(size);
|
|
Gen0(pc_adl);
|
|
end; {else}
|
|
eType := pointer(Malloc(sizeof(typeRecord)));
|
|
eType^.size := cgLongSize;
|
|
eType^.saveDisp := 0;
|
|
eType^.isConstant := false;
|
|
eType^.kind := pointerType;
|
|
eType^.pType := expressionType;
|
|
expressionType := eType;
|
|
end {if}
|
|
else
|
|
Error(79);
|
|
end {else if}
|
|
else if tree^.token.kind = castoper then begin
|
|
|
|
{load the address of a field of a record}
|
|
LoadAddress(tree^.left);
|
|
expressionType := tree^.castType;
|
|
if expressionType^.kind <> arrayType then begin
|
|
eType := pointer(Malloc(sizeof(typeRecord)));
|
|
eType^.size := cgLongSize;
|
|
eType^.saveDisp := 0;
|
|
eType^.isConstant := false;
|
|
eType^.kind := pointerType;
|
|
eType^.pType := expressionType;
|
|
expressionType := eType;
|
|
end; {if}
|
|
end {else if}
|
|
|
|
else if ExpressionKind(tree) in [arrayType,pointerType] then
|
|
GenerateCode(tree)
|
|
else begin
|
|
expressionType := intPtr; {set default type in case of error}
|
|
if doDispose then {prevent spurious errors}
|
|
Error(78);
|
|
end; {else}
|
|
1:
|
|
end; {LoadAddress}
|
|
|
|
|
|
procedure DoIncDec (tree: tokenPtr; pc_l, pc_g, pc_i: pcodes);
|
|
|
|
{ do ++ and -- }
|
|
{ }
|
|
{ parameters: }
|
|
{ tree - tree to generate the instruction for }
|
|
{ pc_l - op code for a local ++ or -- }
|
|
{ pc_g - op code for a global ++ or -- }
|
|
{ pc_i - op code for an indirect ++ or -- }
|
|
|
|
label 1;
|
|
|
|
var
|
|
baseType: baseTypeEnum; {type of operation}
|
|
lSize: longint; {number to inc or dec by}
|
|
iSize: integer; {number to inc or dec by}
|
|
tp: baseTypeEnum; {type of operand}
|
|
|
|
|
|
procedure IncOrDec (inc: boolean);
|
|
|
|
{ Increment or decrement a number on TOS }
|
|
{ }
|
|
{ parameters: }
|
|
{ inc - increment the number? }
|
|
|
|
begin {IncOrDec}
|
|
case expressionType^.kind of
|
|
|
|
scalarType:
|
|
case tp of
|
|
|
|
cgByte,cgUByte,cgWord,cgUWord: begin
|
|
Gen1t(pc_ldc, 1, cgWord);
|
|
if inc then
|
|
Gen0(pc_adi)
|
|
else
|
|
Gen0(pc_sbi);
|
|
if expressionType^.cType = ctBool then begin
|
|
CompareToZero(pc_neq);
|
|
expressionType := boolPtr;
|
|
end {if}
|
|
end;
|
|
|
|
cgLong,cgULong: begin
|
|
GenLdcLong(1);
|
|
if inc then
|
|
Gen0(pc_adl)
|
|
else
|
|
Gen0(pc_sbl);
|
|
end;
|
|
|
|
cgQuad,cgUQuad: begin
|
|
GenLdcQuad(longlong1);
|
|
if inc then
|
|
Gen0(pc_adq)
|
|
else
|
|
Gen0(pc_sbq);
|
|
end;
|
|
|
|
cgReal,cgDouble,cgComp,cgExtended: begin
|
|
GenLdcReal(1.0);
|
|
if inc then
|
|
Gen0(pc_adr)
|
|
else
|
|
Gen0(pc_sbr);
|
|
end;
|
|
|
|
otherwise: Error(57);
|
|
|
|
end; {case}
|
|
|
|
pointerType,arrayType: begin
|
|
GenldcLong(expressionType^.pType^.size);
|
|
if inc then
|
|
Gen0(pc_adl)
|
|
else
|
|
Gen0(pc_sbl);
|
|
end;
|
|
|
|
otherwise: ;
|
|
|
|
end; {case}
|
|
end; {IncOrDec}
|
|
|
|
|
|
begin {DoIncDec}
|
|
L_Value(tree);
|
|
if (tree^.token.kind = ident)
|
|
and ((tree^.id^.iType^.kind in [scalarType,pointerType])
|
|
or ((tree^.id^.iType^.kind = arrayType) and (tree^.id^.storage = parameter)))
|
|
then
|
|
with tree^.id^ do begin
|
|
|
|
{check for ++ or -- of a constant}
|
|
if iType^.isConstant then
|
|
Error(93);
|
|
|
|
{do an efficient ++ or -- on a named location}
|
|
if iType^.kind = scalarType then begin
|
|
iSize := 1;
|
|
baseType := iType^.baseType;
|
|
if (baseType in [cgReal,cgDouble,cgComp,cgExtended,cgQuad,cgUQuad])
|
|
or (iType^.cType = ctBool) then begin
|
|
|
|
{do real or bool inc or dec}
|
|
LoadScalar(tree^.id); {load the value}
|
|
if pc_l in [pc_lli,pc_lld] then
|
|
if iType^.cType = ctBool then begin
|
|
t1 := GetTemp(cgWordSize);
|
|
Gen2t(pc_cop, t1, 0, cgWord);
|
|
end; {if}
|
|
tp := baseType;
|
|
expressionType := iType;
|
|
IncOrDec(pc_l in [pc_lli,pc_lil]); {do the ++ or --}
|
|
case storage of {save the result}
|
|
stackFrame, parameter:
|
|
Gen2t(pc_cop, lln, 0, baseType);
|
|
external, global, private:
|
|
Gen1tName(pc_cpo, 0, baseType, name);
|
|
otherwise: ;
|
|
end; {case}
|
|
{correct the value for postfix ops}
|
|
if pc_l in [pc_lli,pc_lld] then
|
|
if iType^.cType = ctBool then begin
|
|
Gen0t(pc_pop, cgWord);
|
|
Gen2t(pc_lod, t1, 0, cgWord);
|
|
Gen0t(pc_bno, cgWord);
|
|
FreeTemp(t1, cgWordSize);
|
|
end {if}
|
|
else
|
|
IncOrDec(pc_l = pc_lld);
|
|
if iType^.cType = ctBool then
|
|
expressionType := boolPtr
|
|
else if baseType = cgQuad then
|
|
expressionType := longLongPtr
|
|
else if baseType = cgUQuad then
|
|
expressionType := ulongLongPtr
|
|
else
|
|
expressionType := doublePtr;
|
|
goto 1;
|
|
end; {else if}
|
|
end {if}
|
|
else {if iType^.kind in [pointerType,arrayType] then} begin
|
|
lSize := iType^.pType^.size;
|
|
if lSize = 0 then
|
|
Error(122);
|
|
if long(lSize).msw <> 0 then begin
|
|
|
|
{handle inc/dec of >64K}
|
|
LoadScalar(tree^.id);
|
|
GenLdcLong(lSize);
|
|
if pc_l in [pc_lli,pc_lil] then
|
|
Gen0(pc_adl)
|
|
else
|
|
Gen0(pc_sbl);
|
|
with tree^.id^ do
|
|
case storage of
|
|
stackFrame, parameter:
|
|
Gen2t(pc_cop, lln, 0, cgULong);
|
|
external, global, private:
|
|
Gen1tName(pc_cpo, 0, cgULong, name);
|
|
otherwise: ;
|
|
end; {case}
|
|
if pc_l in [pc_lli,pc_lld] then begin
|
|
GenLdcLong(lSize);
|
|
if pc_l = pc_lld then
|
|
Gen0(pc_adl)
|
|
else
|
|
Gen0(pc_sbl);
|
|
end; {if}
|
|
goto 1;
|
|
end; {if}
|
|
baseType := cgULong;
|
|
iSize := long(lSize).lsw;
|
|
end; {else}
|
|
case storage of
|
|
stackFrame, parameter:
|
|
Gen2t(pc_l, lln, iSize, baseType);
|
|
external, global, private:
|
|
Gen2tName(pc_g, iSize, 0, baseType, name);
|
|
otherwise: ;
|
|
end; {case}
|
|
expressionType := itype;
|
|
end {with}
|
|
else begin
|
|
|
|
{do an indirect ++ or --}
|
|
LoadAddress(tree); {get the address to save to}
|
|
if expressionType^.kind = arrayType then
|
|
expressionType := expressionType^.aType
|
|
else if expressionType^.kind = pointerType then
|
|
expressionType := expressionType^.pType;
|
|
if expressionType^.kind = scalarType then
|
|
if expressionType^.baseType in
|
|
[cgByte,cgUByte,cgWord,cgUWord,cgReal,cgDouble,cgComp,cgExtended] then
|
|
tp := expressionType^.baseType
|
|
else
|
|
tp := UsualUnaryConversions
|
|
else
|
|
tp := UsualUnaryConversions;
|
|
if (tp in [cgByte,cgUByte,cgWord,cgUword])
|
|
and (expressionType^.cType <> ctBool)
|
|
and not isBitField then
|
|
Gen0t(pc_i, tp) {do indirect inc/dec}
|
|
else begin
|
|
t1 := GetTemp(cgLongSize);
|
|
Gen2t(pc_str, t1, 0, cgULong);
|
|
Gen2t(pc_lod, t1, 0, cgULong);
|
|
Gen2t(pc_lod, t1, 0, cgULong);
|
|
FreeTemp(t1, cgLongSize);
|
|
{load the value}
|
|
if isBitField then begin
|
|
if unsigned then
|
|
Gen2t(pc_lbu, bitDisp, bitSize, tp)
|
|
else
|
|
Gen2t(pc_lbf, bitDisp, bitSize, tp);
|
|
end {if}
|
|
else
|
|
Gen1t(pc_ind, 0, tp);
|
|
if pc_l in [pc_lli,pc_lld] then
|
|
if expressionType^.cType = ctBool then begin
|
|
t1 := GetTemp(cgWordSize);
|
|
Gen2t(pc_cop, t1, 0, cgWord);
|
|
end; {if}
|
|
IncOrDec(pc_l in [pc_lli,pc_lil]); {do the ++ or --}
|
|
if isBitField then {copy the value}
|
|
Gen2t(pc_cbf, bitDisp, bitSize, tp)
|
|
else
|
|
Gen0t(pc_cpi, tp);
|
|
Gen0t(pc_bno, tp);
|
|
if pc_l in [pc_lli,pc_lld] then {correct the value for postfix ops}
|
|
if expressionType^.cType = ctBool then begin
|
|
Gen0t(pc_pop, cgWord);
|
|
Gen2t(pc_lod, t1, 0, cgWord);
|
|
Gen0t(pc_bno, cgWord);
|
|
FreeTemp(t1, cgWordSize);
|
|
end {if}
|
|
else
|
|
IncOrDec(pc_l = pc_lld);
|
|
end; {else}
|
|
end; {else}
|
|
1:
|
|
end; {DoIncDec}
|
|
|
|
|
|
procedure FunctionCall (tree: tokenPtr);
|
|
|
|
{ generate the actual function call }
|
|
|
|
var
|
|
fName: stringPtr; {uppercase file name}
|
|
fntype: typePtr; {temp function type}
|
|
ftree: tokenPtr; {function address tree}
|
|
ftype: typePtr; {function type}
|
|
i: integer; {loop variable}
|
|
indirect: boolean; {is this an indirect call?}
|
|
ldoDispose: boolean; {local copy of doDispose}
|
|
lcodeGeneration: boolean; {local copy of codeGeneration}
|
|
|
|
|
|
procedure FunctionParms (parms: tokenPtr; fType: typePtr);
|
|
|
|
{ Generate a function call. }
|
|
{ }
|
|
{ parameters: }
|
|
{ parms - parameter list }
|
|
{ fType - function type }
|
|
|
|
var
|
|
kind: typeKind; {for expression kinds}
|
|
ldoDispose: boolean; {local copy of doDispose}
|
|
lnumErrors: integer; {number of errors before type check}
|
|
numParms: integer; {# of parameters generated}
|
|
parameters: parameterPtr; {next prototyped parameter}
|
|
pCount: integer; {# of parameters prototyped}
|
|
prototype: boolean; {is the function prototyped?}
|
|
tp: tokenPtr; {work pointers}
|
|
fp, tfp: fmtArgPtr;
|
|
fmt: fmt_type;
|
|
|
|
|
|
procedure Reverse;
|
|
|
|
{ Reverse the parameter list }
|
|
|
|
var
|
|
p1,p2,p3: tokenPtr; {work pointers}
|
|
|
|
begin {Reverse}
|
|
p3 := parms; {remove the last entry}
|
|
p1 := parms;
|
|
p2 := nil;
|
|
while p3^.right <> nil do begin
|
|
p2 := p3;
|
|
p3 := p3^.right;
|
|
end; {while}
|
|
if p2 <> nil then
|
|
p2^.right := nil
|
|
else
|
|
p1 := nil;
|
|
while p1 <> nil do begin {reverse the remaining parms}
|
|
p2 := p1;
|
|
p1 := p1^.right;
|
|
p2^.right := p3;
|
|
p3 := p2;
|
|
end; {while}
|
|
parms := p3;
|
|
end; {Reverse}
|
|
|
|
|
|
begin {FunctionParms}
|
|
{check the validity of the parameter list}
|
|
if ftype^.isPascal then {reverse parms for pascal calls}
|
|
Reverse;
|
|
tp := parms; {set up to check types}
|
|
prototype := ftype^.prototyped;
|
|
parameters := ftype^.parameterList;
|
|
pCount := 1;
|
|
fmt := fmt_none;
|
|
fp := nil;
|
|
|
|
if ((lint & lintPrintf) <> 0) and fType^.varargs and not indirect then
|
|
fmt := FormatClassify(ftree^.id^.name^);
|
|
|
|
while parameters <> nil do begin {count the prototypes}
|
|
pCount := pCount+1;
|
|
parameters := parameters^.next;
|
|
end; {while}
|
|
parameters := ftype^.parameterList;
|
|
if prototype then begin {check for wrong # of parms}
|
|
while tp <> nil do begin {count the parms}
|
|
pCount := pCount-1;
|
|
tp := tp^.right;
|
|
end; {while}
|
|
tp := parms;
|
|
if (pCount > 0) or ((pCount <> 0) and not ftype^.varargs) then
|
|
Error(85);
|
|
end; {if}
|
|
|
|
tp := parms;
|
|
|
|
{generate the parameters}
|
|
numParms := 0;
|
|
lDoDispose := doDispose;
|
|
doDispose := false;
|
|
while tp <> nil do begin
|
|
if tp^.middle <> nil then begin
|
|
lnumErrors := numErrors;
|
|
kind := ExpressionKind(tp^.middle);
|
|
if numErrors = lnumErrors then
|
|
if kind in [structType,unionType] then begin
|
|
GenerateCode(tp^.middle);
|
|
if expressionType^.size & $FFFF8000 <> 0 then
|
|
Error(61);
|
|
Gen1t(pc_ldc, long(expressionType^.size).lsw, cgWord);
|
|
Gen0(pc_psh);
|
|
end {else if}
|
|
else
|
|
GenerateCode(tp^.middle);
|
|
if fmt <> fmt_none then begin
|
|
new(tfp);
|
|
tfp^.next := fp;
|
|
tfp^.tk := tp^.middle;
|
|
tfp^.ty := expressionType;
|
|
fp := tfp;
|
|
end;
|
|
if prototype then begin
|
|
if pCount = 0 then begin
|
|
if parameters <> nil then begin
|
|
AssignmentConversion(parameters^.parameterType,
|
|
expressionType, lastWasConst, lastConst, true, false);
|
|
end; {if}
|
|
parameters := parameters^.next;
|
|
end {if}
|
|
else
|
|
pCount := pCount+1;
|
|
end; {if}
|
|
Gen0t(pc_stk, UsualUnaryConversions);
|
|
if numParms <> 0 then
|
|
Gen0t(pc_bno, UsualUnaryConversions);
|
|
numParms := numParms+1;
|
|
end; {if}
|
|
tp := tp^.right;
|
|
end; {while}
|
|
|
|
if fmt <> fmt_none then FormatCheck(fmt, fp);
|
|
|
|
|
|
doDispose := lDoDispose;
|
|
if numParms = 0 then
|
|
Gen0(pc_nop);
|
|
|
|
if ftype^.isPascal then {restore parm order}
|
|
Reverse;
|
|
|
|
if doDispose then begin {dispose of leaf nodes}
|
|
DisposeTree(parms^.middle);
|
|
DisposeTree(parms^.right);
|
|
end; {if}
|
|
end; {FunctionParms}
|
|
|
|
|
|
begin {FunctionCall}
|
|
{find the type of the function}
|
|
indirect := true; {assume an indirect call}
|
|
ftree := tree^.left; {get the function tree}
|
|
if ftree^.token.kind = ident then {check for direct calls}
|
|
if ftree^.id^.itype^.kind = functionType then begin
|
|
indirect := false;
|
|
fType := ftree^.id^.itype; {get the function type}
|
|
end; {if}
|
|
if indirect then begin {get type for indirect call}
|
|
ldoDispose := doDispose;
|
|
doDispose := false;
|
|
lcodeGeneration := codeGeneration;
|
|
codeGeneration := false;
|
|
GenerateCode(ftree);
|
|
doDispose := ldoDispose;
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
ftype := expressionType;
|
|
while ftype^.kind in [pointerType,arrayType] do
|
|
ftype := ftype^.ptype;
|
|
end; {if}
|
|
|
|
{make sure the identifier is really a function}
|
|
if ftype^.kind <> functionType then
|
|
Error(114)
|
|
else begin
|
|
|
|
{generate function parameters}
|
|
FunctionParms (tree, fType);
|
|
|
|
{generate the function call}
|
|
expressionType := ftype^.fType;
|
|
if expressionType^.kind in [structType,unionType] then
|
|
expressionType := uLongPtr;
|
|
if (ftype^.toolNum = 0) and (ftype^.dispatcher = 0) then begin
|
|
if indirect then begin
|
|
fntype := expressionType;
|
|
GenerateCode(ftree);
|
|
expressionType := fntype;
|
|
Gen1t(pc_cui, ord(fType^.varargs and strictVararg),
|
|
UsualUnaryConversions);
|
|
end {if}
|
|
else begin
|
|
fname := ftree^.id^.name;
|
|
if ftype^.isPascal then begin
|
|
fname := pointer(Malloc(length(fname^)+1));
|
|
CopyString(pointer(fname), pointer(ftree^.id^.name));
|
|
for i := 1 to length(fname^) do
|
|
if fName^[i] in ['a'..'z'] then
|
|
fName^[i] := chr(ord(fName^[i]) & $5F);
|
|
end; {if}
|
|
Gen1tName(pc_cup, ord(fType^.varargs and strictVararg),
|
|
UsualUnaryConversions, fname);
|
|
end; {else}
|
|
if fType^.varargs then
|
|
hasVarargsCall := true;
|
|
end {if}
|
|
else
|
|
GenTool(pc_tl1, ftype^.toolNum, long(ftype^.ftype^.size).lsw,
|
|
ftype^.dispatcher);
|
|
expressionType := ftype^.fType;
|
|
lastWasConst := false;
|
|
end; {else}
|
|
end; {FunctionCall}
|
|
|
|
|
|
procedure CompareCompatible (var t1,t2: typePtr);
|
|
|
|
{ Make sure that it is legal to compare t1 to t2 }
|
|
|
|
begin {CompareCompatible}
|
|
if (t1^.kind = functionType) or (t2^.kind = functionType) then begin
|
|
if not CompTypes(t1, t2) then
|
|
Error(47);
|
|
end {if}
|
|
else if t1^.kind in [pointerType,arrayType] then begin
|
|
if t2^.kind in [pointerType,arrayType] then begin
|
|
if (t1^.ptype = voidPtr) or (t2^.ptype = voidPtr) then
|
|
else if not CompTypes(t1^.ptype, t2^.ptype) then
|
|
Error(47);
|
|
t2 := ulongPtr;
|
|
end {if}
|
|
else if (not lastwasconst) or (lastconst <> 0) then
|
|
Error(47);
|
|
t1 := ulongPtr;
|
|
end {if}
|
|
else if expressionType^.kind in [pointerType,arrayType] then begin
|
|
if (not tlastwasconst) or (tlastconst <> 0) then
|
|
Error(47);
|
|
t2 := ulongPtr;
|
|
end; {else if}
|
|
end; {CompareCompatible}
|
|
|
|
|
|
procedure CheckDivByZero (var divisor: tokenType; opType: typePtr);
|
|
|
|
{ Check for division by (constant) zero. }
|
|
{ }
|
|
{ parameters: }
|
|
{ divisor - token for divisor }
|
|
{ opType - type of the result of the operation }
|
|
|
|
begin {CheckDivByZero}
|
|
if opType^.kind = scalarType then
|
|
if opType^.baseType in
|
|
[cgByte,cgWord,cgUByte,cgUWord,cgLong,cgULong,cgQuad,cgUQuad] then
|
|
if ((divisor.class = intConstant) and (divisor.ival = 0))
|
|
or ((divisor.class = longConstant) and (divisor.lval = 0))
|
|
or ((divisor.class = longlongConstant)
|
|
and (divisor.qval.lo = 0) and (divisor.qval.hi = 0))
|
|
or ((divisor.class = realConstant) and (divisor.rval = 0.0)) then
|
|
Error(129);
|
|
end; {CheckDivByZero}
|
|
|
|
|
|
procedure CheckShiftOverflow (var shiftCountTok: tokenType; opType: typePtr);
|
|
|
|
{ Check for invalid (too large or negative) shift count. }
|
|
{ }
|
|
{ parameters: }
|
|
{ shiftCountTok - token for shift count }
|
|
{ opType - type of the result of the operation }
|
|
|
|
var
|
|
shiftCount: longint;
|
|
|
|
begin {CheckShiftOverflow}
|
|
if shiftCountTok.class = intConstant then
|
|
shiftCount := shiftCountTok.ival
|
|
else if shiftCountTok.class = longConstant then
|
|
shiftCount := shiftCountTok.lval
|
|
else if shiftCountTok.class = longlongConstant then begin
|
|
if shiftCountTok.qval.hi = 0 then
|
|
shiftCount := shiftCountTok.qval.lo
|
|
else
|
|
shiftCount := -1;
|
|
end {else if}
|
|
else
|
|
shiftCount := 0;
|
|
|
|
if (shiftCount <> 0) and (opType^.kind = scalarType) then begin
|
|
if opType^.baseType in [cgByte,cgWord,cgUByte,cgUWord] then
|
|
if (shiftCount < 0) or (shiftCount > 15) then
|
|
Error(130);
|
|
if opType^.baseType in [cgLong,cgULong] then
|
|
if (shiftCount < 0) or (shiftCount > 31) then
|
|
Error(130);
|
|
if opType^.baseType in [cgQuad,cgUQuad] then
|
|
if (shiftCount < 0) or (shiftCount > 63) then
|
|
Error(130);
|
|
end; {if}
|
|
end; {CheckShiftOverflow}
|
|
|
|
|
|
begin {GenerateCode}
|
|
lastwasconst := false;
|
|
case tree^.token.kind of
|
|
|
|
parameterOper:
|
|
FunctionCall(tree);
|
|
|
|
ident: begin
|
|
tType := tree^.id^.itype;
|
|
while tType^.kind = definedType do
|
|
tType := tType^.dType;
|
|
case tType^.kind of
|
|
|
|
scalarType: begin
|
|
LoadScalar(tree^.id);
|
|
expressionType := tree^.id^.itype;
|
|
end;
|
|
|
|
pointerType: begin
|
|
LoadScalar(tree^.id);
|
|
expressionType := tree^.id^.itype;
|
|
end;
|
|
|
|
|
|
arrayType: begin
|
|
LoadAddress(tree);
|
|
expressionType := expressionType^.ptype;
|
|
end;
|
|
|
|
functionType:
|
|
LoadAddress(tree);
|
|
|
|
structType, unionType: begin
|
|
LoadAddress(tree);
|
|
if expressionType^.kind = pointerType then
|
|
expressionType := expressionType^.ptype;
|
|
end;
|
|
|
|
enumConst: begin
|
|
Gen1t(pc_ldc, tree^.id^.itype^.eval, cgWord);
|
|
expressionType := intPtr;
|
|
end;
|
|
|
|
end; {case}
|
|
end;
|
|
|
|
intConst,uintConst,charConst,scharConst,ucharConst: begin
|
|
Gen1t(pc_ldc, tree^.token.ival, cgWord);
|
|
lastwasconst := true;
|
|
lastconst := tree^.token.ival;
|
|
if tree^.token.kind = intConst then
|
|
expressionType := intPtr
|
|
else if tree^.token.kind = uintConst then
|
|
expressionType := uIntPtr
|
|
else if tree^.token.kind = charConst then
|
|
expressionType := charPtr
|
|
else if tree^.token.kind = scharConst then
|
|
expressionType := scharPtr
|
|
else {if tree^.token.kind = ucharConst then}
|
|
expressionType := ucharPtr;
|
|
end; {case intConst,uintConst,charConst,scharConst,ucharConst}
|
|
|
|
longConst,ulongConst: begin
|
|
GenLdcLong(tree^.token.lval);
|
|
if tree^.token.kind = longConst then
|
|
expressionType := longPtr
|
|
else
|
|
expressionType := ulongPtr;
|
|
lastwasconst := true;
|
|
lastconst := tree^.token.lval;
|
|
end; {case longConst}
|
|
|
|
longlongConst,ulonglongConst: begin
|
|
GenLdcQuad(tree^.token.qval);
|
|
if tree^.token.kind = longlongConst then
|
|
expressionType := longlongPtr
|
|
else
|
|
expressionType := ulonglongPtr;
|
|
if (tree^.token.qval.hi = 0) and (tree^.token.qval.lo >= 0) then begin
|
|
lastwasconst := true;
|
|
lastconst := tree^.token.qval.lo;
|
|
end; {if}
|
|
end; {case longlongConst}
|
|
|
|
floatConst: begin
|
|
GenLdcReal(tree^.token.rval);
|
|
expressionType := floatPtr;
|
|
end; {case floatConst}
|
|
|
|
doubleConst: begin
|
|
GenLdcReal(tree^.token.rval);
|
|
expressionType := doublePtr;
|
|
end; {case doubleConst}
|
|
|
|
extendedConst: begin
|
|
GenLdcReal(tree^.token.rval);
|
|
expressionType := extendedPtr;
|
|
end; {case extendedConst}
|
|
|
|
compConst: begin
|
|
GenLdcReal(tree^.token.rval);
|
|
expressionType := compPtr;
|
|
end; {case compConst}
|
|
|
|
stringConst: begin
|
|
GenS(pc_lca, tree^.token.sval);
|
|
expressionType := stringTypePtr;
|
|
end; {case stringConst}
|
|
|
|
eqch: begin {=}
|
|
L_Value(tree^.left);
|
|
with tree^.left^ do begin
|
|
if token.kind = ident then
|
|
kind := id^.itype^.kind
|
|
else
|
|
kind := definedType;
|
|
if kind = arrayType then
|
|
if id^.storage = parameter then
|
|
kind := pointerType;
|
|
if (token.kind = ident)
|
|
and (kind in [scalarType,pointerType]) then begin
|
|
GenerateCode(tree^.right);
|
|
with tree^.left^.id^ do begin
|
|
if itype^.kind in [pointerType,arrayType] then
|
|
lType := uLongPtr
|
|
else
|
|
lType := itype;
|
|
AssignmentConversion(itype, expressionType, lastWasConst,
|
|
lastConst, true, true);
|
|
case storage of
|
|
stackFrame, parameter:
|
|
Gen2t(pc_cop, lln, 0, lType^.baseType);
|
|
external, global, private:
|
|
Gen1tName(pc_cpo, 0, lType^.baseType, name);
|
|
otherwise: ;
|
|
end; {case}
|
|
end; {with}
|
|
end {if}
|
|
else begin
|
|
LoadAddress(tree^.left);
|
|
lType := expressionType;
|
|
lisBitField := isBitField;
|
|
lbitDisp := bitDisp;
|
|
lbitSize := bitSize;
|
|
if lType^.kind = arrayType then
|
|
lType := lType^.aType
|
|
else if lType^.kind = pointerType then
|
|
lType := lType^.pType;
|
|
GenerateCode(tree^.right);
|
|
AssignmentConversion(lType, expressionType, lastWasConst,
|
|
lastConst, true, true);
|
|
case lType^.kind of
|
|
scalarType:
|
|
if lisBitField then
|
|
Gen2t(pc_cbf, lbitDisp, lbitSize, lType^.baseType)
|
|
else
|
|
Gen0t(pc_cpi, lType^.baseType);
|
|
|
|
pointerType:
|
|
Gen0t(pc_cpi, cgULong);
|
|
|
|
structType,unionType:
|
|
Gen2(pc_mov, long(lType^.size).msw, long(lType^.size).lsw);
|
|
|
|
otherwise:
|
|
Error(47);
|
|
|
|
end; {case}
|
|
end; {else}
|
|
end; {with}
|
|
end; {=}
|
|
|
|
pluseqop, {+=}
|
|
minuseqop, {-=}
|
|
asteriskeqop, {*=}
|
|
slasheqop, {/=}
|
|
percenteqop, {%=}
|
|
ltlteqop, {<<=}
|
|
gtgteqop, {>>=}
|
|
andeqop, {&=}
|
|
caroteqop, {^=}
|
|
bareqop: with tree^.left^ do {|=}
|
|
begin
|
|
L_Value(tree^.left);
|
|
if (token.kind = ident)
|
|
and ((id^.itype^.kind in [scalarType,pointerType])
|
|
or ((id^.itype^.kind = arrayType) and (id^.storage = parameter))) then begin
|
|
doingScalar := true;
|
|
LoadScalar(id);
|
|
lType := id^.itype;
|
|
t1 := 0;
|
|
end {if}
|
|
else begin
|
|
doingScalar := false;
|
|
LoadAddress(tree^.left);
|
|
lisBitField := isBitField;
|
|
lbitDisp := bitDisp;
|
|
lbitSize := bitSize;
|
|
t1 := GetTemp(cgLongSize);
|
|
Gen2t(pc_str, t1, 0, cgULong);
|
|
Gen2t(pc_lod, t1, 0, cgULong);
|
|
Gen2t(pc_lod, t1, 0, cgULong);
|
|
lType := expressionType^.pType;
|
|
if isBitField then begin
|
|
if unsigned then
|
|
Gen2t(pc_lbu, bitDisp, bitSize, lType^.baseType)
|
|
else
|
|
Gen2t(pc_lbf, bitDisp, bitSize, lType^.baseType);
|
|
end {if}
|
|
else if lType^.kind = pointerType then
|
|
Gen1t(pc_ind, 0, cgULong)
|
|
else
|
|
Gen1t(pc_ind, 0, lType^.baseType);
|
|
end; {else}
|
|
if lType^.isConstant then
|
|
Error(93);
|
|
if doingScalar
|
|
and (ltype^.kind = arrayType) and (id^.storage = parameter) then
|
|
kind := pointerType
|
|
else
|
|
kind := lType^.kind;
|
|
GenerateCode(tree^.right);
|
|
if expressionType^.kind <> scalarType then
|
|
Error(66);
|
|
if tree^.token.kind in [gtgteqop,ltlteqop] then
|
|
if kind = scalarType then
|
|
if expressionType^.kind = scalarType then begin
|
|
if expressionType^.baseType in
|
|
[cgReal,cgDouble,cgComp,cgExtended,cgVoid] then
|
|
Error(66);
|
|
et := UsualUnaryConversions;
|
|
if ltype^.baseType in [cgQuad,cgUQuad] then begin
|
|
if not (et in [cgWord,cgUWord]) then begin
|
|
Gen2(pc_cnv, et, ord(cgWord));
|
|
end; {if}
|
|
expressionType := lType;
|
|
end {if}
|
|
else
|
|
if et <> Unary(ltype^.baseType) then begin
|
|
Gen2(pc_cnv, et, ord(Unary(ltype^.baseType)));
|
|
expressionType := lType;
|
|
end; {if}
|
|
end; {if}
|
|
if kind <> pointerType then
|
|
et := UsualBinaryConversions(lType)
|
|
else
|
|
et := ccPointer;
|
|
case tree^.token.kind of
|
|
|
|
pluseqop:
|
|
if kind = pointerType then begin
|
|
ChangePointer(pc_adl, lType^.pType^.size, UsualUnaryConversions);
|
|
expressionType := lType;
|
|
end
|
|
else if et in [cgWord,cgUWord] then
|
|
Gen0(pc_adi)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_adl)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_adq)
|
|
else if et in [cgReal,cgDouble,cgComp,cgExtended] then
|
|
Gen0(pc_adr)
|
|
else
|
|
Error(66);
|
|
|
|
minuseqop:
|
|
if kind = pointerType then begin
|
|
ChangePointer(pc_sbl, lType^.pType^.size, UsualUnaryConversions);
|
|
expressionType := lType;
|
|
end
|
|
else if et in [cgWord,cgUWord] then
|
|
Gen0(pc_sbi)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_sbl)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_sbq)
|
|
else if et in [cgReal,cgDouble,cgComp,cgExtended] then
|
|
Gen0(pc_sbr)
|
|
else
|
|
Error(66);
|
|
|
|
asteriskeqop:
|
|
if et = cgWord then
|
|
Gen0(pc_mpi)
|
|
else if et = cgUWord then
|
|
Gen0(pc_umi)
|
|
else if et = cgLong then
|
|
Gen0(pc_mpl)
|
|
else if et = cgULong then
|
|
Gen0(pc_uml)
|
|
else if et = cgQuad then
|
|
Gen0(pc_mpq)
|
|
else if et = cgUQuad then
|
|
Gen0(pc_umq)
|
|
else if et in [cgReal,cgDouble,cgComp,cgExtended] then
|
|
Gen0(pc_mpr)
|
|
else
|
|
Error(66);
|
|
|
|
slasheqop:
|
|
if et = cgWord then
|
|
Gen0(pc_dvi)
|
|
else if et = cgUWord then
|
|
Gen0(pc_udi)
|
|
else if et = cgLong then
|
|
Gen0(pc_dvl)
|
|
else if et = cgULong then
|
|
Gen0(pc_udl)
|
|
else if et = cgQuad then
|
|
Gen0(pc_dvq)
|
|
else if et = cgUQuad then
|
|
Gen0(pc_udq)
|
|
else if et in [cgReal,cgDouble,cgComp,cgExtended] then
|
|
Gen0(pc_dvr)
|
|
else
|
|
Error(66);
|
|
|
|
percenteqop:
|
|
if et = cgWord then
|
|
Gen0(pc_mod)
|
|
else if et = cgUWord then
|
|
Gen0(pc_uim)
|
|
else if et = cgLong then
|
|
Gen0(pc_mdl)
|
|
else if et = cgULong then
|
|
Gen0(pc_ulm)
|
|
else if et = cgQuad then
|
|
Gen0(pc_mdq)
|
|
else if et = cgUQuad then
|
|
Gen0(pc_uqm)
|
|
else
|
|
Error(66);
|
|
|
|
ltlteqop:
|
|
if et in [cgWord,cgUWord] then
|
|
Gen0(pc_shl)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_sll)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_slq)
|
|
else
|
|
Error(66);
|
|
|
|
gtgteqop:
|
|
if et = cgWord then
|
|
Gen0(pc_shr)
|
|
else if et = cgUWord then
|
|
Gen0(pc_usr)
|
|
else if et = cgLong then
|
|
Gen0(pc_slr)
|
|
else if et = cgULong then
|
|
Gen0(pc_vsr)
|
|
else if et = cgQuad then
|
|
Gen0(pc_sqr)
|
|
else if et = cgUQuad then
|
|
Gen0(pc_wsr)
|
|
else
|
|
Error(66);
|
|
|
|
andeqop:
|
|
if et in [cgWord,cgUWord] then
|
|
Gen0(pc_bnd)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_bal)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_baq)
|
|
else
|
|
Error(66);
|
|
|
|
caroteqop:
|
|
if et in [cgWord,cgUWord] then
|
|
Gen0(pc_bxr)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_blx)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_bqx)
|
|
else
|
|
Error(66);
|
|
|
|
bareqop:
|
|
if et in [cgWord,cgUWord] then
|
|
Gen0(pc_bor)
|
|
else if et in [cgLong,cgULong] then
|
|
Gen0(pc_blr)
|
|
else if et in [cgQuad,cgUQuad] then
|
|
Gen0(pc_bqr)
|
|
else
|
|
Error(66);
|
|
|
|
otherwise: Error(57);
|
|
end; {case}
|
|
if ((lint & lintOverflow) <> 0) then begin
|
|
if tree^.token.kind in [slasheqop,percenteqop] then
|
|
CheckDivByZero(tree^.right^.token, lType)
|
|
else if tree^.token.kind in [ltlteqop,gtgteqop] then
|
|
CheckShiftOverflow(tree^.right^.token, lType);
|
|
end; {if}
|
|
AssignmentConversion(lType,expressionType,false,0,true,true);
|
|
if doingScalar then begin
|
|
if kind = pointerType then
|
|
lType := uLongPtr;
|
|
case id^.storage of
|
|
stackFrame, parameter:
|
|
Gen2t(pc_cop, id^.lln, 0, lType^.baseType);
|
|
external, global, private:
|
|
Gen1tName(pc_cpo, 0, lType^.baseType, id^.name);
|
|
otherwise: ;
|
|
end; {case}
|
|
end {if}
|
|
else begin
|
|
if lisBitField then
|
|
Gen2t(pc_cbf, lbitDisp, lbitSize, lType^.baseType)
|
|
else begin
|
|
if ltype^.kind in [pointerType,arrayType] then
|
|
lType := uLongPtr;
|
|
Gen0t(pc_cpi, lType^.baseType);
|
|
end; {else}
|
|
Gen0t(pc_bno, lType^.baseType);
|
|
end; {else}
|
|
if t1 <> 0 then
|
|
FreeTemp(t1, cgLongSize);
|
|
end; {with}
|
|
|
|
commach: begin {,}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.baseType <> cgVoid then
|
|
Gen0t(pc_pop, UsualUnaryConversions);
|
|
GenerateCode(tree^.right);
|
|
Gen0t(pc_bno, UsualUnaryConversions);
|
|
{result type is already in expressionType}
|
|
end; {case commach}
|
|
|
|
barbarop: begin {||}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.kind in [pointerType,arrayType] then
|
|
expressionType := uLongPtr
|
|
else begin
|
|
et := UsualUnaryConversions;
|
|
if et in [cgReal,cgDouble,cgComp,cgExtended] then begin
|
|
GenLdcReal(0.0);
|
|
Gen0t(pc_neq, cgExtended);
|
|
expressionType := intPtr;
|
|
end {if}
|
|
else if et in [cgQuad,cgUQuad] then begin
|
|
GenLdcQuad(longlong0);
|
|
Gen0t(pc_neq, et);
|
|
expressionType := intPtr;
|
|
end; {else if}
|
|
end; {else}
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if expressionType^.kind in [pointerType,arrayType] then
|
|
expressionType := uLongPtr
|
|
else begin
|
|
et := UsualUnaryConversions;
|
|
if et in [cgReal,cgDouble,cgComp,cgExtended] then begin
|
|
GenLdcReal(0.0);
|
|
Gen0t(pc_neq, cgExtended);
|
|
expressionType := intPtr;
|
|
end {if}
|
|
else if et in [cgQuad,cgUQuad] then begin
|
|
GenLdcQuad(longlong0);
|
|
Gen0t(pc_neq, et);
|
|
expressionType := intPtr;
|
|
end; {else if}
|
|
end; {else}
|
|
case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_ior);
|
|
cgLong,cgULong:
|
|
Gen0(pc_lor);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
expressionType := intPtr;
|
|
end; {case barbarop}
|
|
|
|
andandop: begin {&&}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.kind in [pointerType,arrayType] then
|
|
expressionType := uLongPtr
|
|
else begin
|
|
et := UsualUnaryConversions;
|
|
if et in [cgReal,cgDouble,cgComp,cgExtended] then begin
|
|
GenLdcReal(0.0);
|
|
Gen0t(pc_neq, cgExtended);
|
|
expressionType := intPtr;
|
|
end {if}
|
|
else if et in [cgQuad,cgUQuad] then begin
|
|
GenLdcQuad(longlong0);
|
|
Gen0t(pc_neq, et);
|
|
expressionType := intPtr;
|
|
end; {else if}
|
|
end; {else}
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if expressionType^.kind in [pointerType,arrayType] then
|
|
expressionType := uLongPtr
|
|
else begin
|
|
et := UsualUnaryConversions;
|
|
if et in [cgReal,cgDouble,cgComp,cgExtended] then begin
|
|
GenLdcReal(0.0);
|
|
Gen0t(pc_neq, cgExtended);
|
|
expressionType := intPtr;
|
|
end {if}
|
|
else if et in [cgQuad,cgUQuad] then begin
|
|
GenLdcQuad(longlong0);
|
|
Gen0t(pc_neq, et);
|
|
expressionType := intPtr;
|
|
end; {else if}
|
|
end; {else}
|
|
case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_and);
|
|
cgLong,cgULong:
|
|
Gen0(pc_lnd);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
expressionType := intPtr;
|
|
end; {case andandop}
|
|
|
|
carotch: begin {^}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_bxr);
|
|
cgLong,cgULong:
|
|
Gen0(pc_blx);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_bqx);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case carotch}
|
|
|
|
barch: begin {|}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_bor);
|
|
cgLong,cgULong:
|
|
Gen0(pc_blr);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_bqr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case barch}
|
|
|
|
andch: begin {&}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_bnd);
|
|
cgLong,cgULong:
|
|
Gen0(pc_bal);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_baq);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case andch}
|
|
|
|
ltltop: begin {<<}
|
|
GenerateCode(tree^.left);
|
|
if (expressionType^.kind <> scalarType) then
|
|
error(66);
|
|
et := UsualUnaryConversions;
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (expressionType^.kind <> scalarType)
|
|
or not (expressionType^.baseType in
|
|
[cgByte,cgUByte,cgWord,cgUWord,cgLong,cgULong,cgQuad,cgUQuad]) then
|
|
error(66);
|
|
if et in [cgQuad,cgUQuad] then begin
|
|
if not (expressionType^.baseType in [cgWord,cgUWord]) then
|
|
Gen2(pc_cnv, ord(expressionType^.baseType), ord(cgWord));
|
|
end {if}
|
|
else
|
|
if expressionType^.baseType <> et then
|
|
Gen2(pc_cnv, ord(expressionType^.baseType), ord(et));
|
|
case et of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_shl);
|
|
cgLong,cgULong:
|
|
Gen0(pc_sll);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_slq);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
expressionType := lType;
|
|
if ((lint & lintOverflow) <> 0) then
|
|
CheckShiftOverflow(tree^.right^.token, expressionType);
|
|
end; {case ltltop}
|
|
|
|
gtgtop: begin {>>}
|
|
GenerateCode(tree^.left);
|
|
if (expressionType^.kind <> scalarType) then
|
|
error(66);
|
|
et := UsualUnaryConversions;
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (expressionType^.kind <> scalarType)
|
|
or not (expressionType^.baseType in
|
|
[cgByte,cgUByte,cgWord,cgUWord,cgLong,cgULong,cgQuad,cgUQuad]) then
|
|
error(66);
|
|
if et in [cgQuad,cgUQuad] then begin
|
|
if not (expressionType^.baseType in [cgWord,cgUWord]) then
|
|
Gen2(pc_cnv, ord(expressionType^.baseType), ord(cgWord));
|
|
end {if}
|
|
else
|
|
if expressionType^.baseType <> et then
|
|
Gen2(pc_cnv, ord(expressionType^.baseType), ord(et));
|
|
case et of
|
|
cgByte,cgWord:
|
|
Gen0(pc_shr);
|
|
cgUByte,cgUWord:
|
|
Gen0(pc_usr);
|
|
cgLong:
|
|
Gen0(pc_slr);
|
|
cgULong:
|
|
Gen0(pc_vsr);
|
|
cgQuad:
|
|
Gen0(pc_sqr);
|
|
cgUQuad:
|
|
Gen0(pc_wsr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
expressionType := lType;
|
|
if ((lint & lintOverflow) <> 0) then
|
|
CheckShiftOverflow(tree^.right^.token, expressionType);
|
|
end; {case gtgtop}
|
|
|
|
plusch: begin {+}
|
|
if ExpressionKind(tree^.right) in [arrayType,pointerType] then begin
|
|
tree^.middle := tree^.right;
|
|
tree^.right := tree^.left;
|
|
tree^.left := tree^.middle;
|
|
end; {if}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if lType^.kind in [arrayType,pointerType] then begin
|
|
if expressionType^.kind <> scalarType then
|
|
error(66);
|
|
|
|
{pointer addition}
|
|
et := UsualUnaryConversions;
|
|
expressionType := lType;
|
|
if lType^.kind = arrayType then
|
|
lType := lType^.aType
|
|
else
|
|
lType := lType^.pType;
|
|
ChangePointer(pc_adl, lType^.size, et);
|
|
if expressionType^.kind = arrayType then begin
|
|
tType := pointer(Malloc(sizeof(typeRecord)));
|
|
tType^.size := cgLongSize;
|
|
tType^.saveDisp := 0;
|
|
tType^.isConstant := false;
|
|
tType^.kind := pointerType;
|
|
tType^.pType := expressionType^.aType;
|
|
expressionType := tType;
|
|
end; {if}
|
|
end {if}
|
|
else begin
|
|
|
|
{scalar addition}
|
|
case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_adi);
|
|
cgLong,cgULong:
|
|
Gen0(pc_adl);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_adq);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
Gen0(pc_adr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {else}
|
|
end; {case plusch}
|
|
|
|
minusch: begin {-}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if lType^.kind in [pointerType,arrayType] then begin
|
|
if lType^.kind = arrayType then
|
|
size := lType^.aType^.size
|
|
else
|
|
size := lType^.pType^.size;
|
|
if expressionType^.kind in [arrayType,pointerType] then begin
|
|
|
|
{subtraction of two pointers}
|
|
if size = 0 then
|
|
Error(122)
|
|
{NOTE: assumes aType & pType overlap in typeRecord}
|
|
else if not CompTypes(lType^.aType, expressionType^.aType) then
|
|
Error(47);
|
|
Gen0(pc_sbl);
|
|
if size <> 1 then begin
|
|
GenLdcLong(size);
|
|
Gen0(pc_dvl);
|
|
end; {if}
|
|
lType := longPtr;
|
|
end {if}
|
|
else
|
|
{subtract a scalar from a pointer}
|
|
ChangePointer(pc_sbl, size, UsualUnaryConversions);
|
|
expressionType := lType;
|
|
if expressionType^.kind = arrayType then begin
|
|
tType := pointer(Malloc(sizeof(typeRecord)));
|
|
tType^.size := cgLongSize;
|
|
tType^.saveDisp := 0;
|
|
tType^.isConstant := false;
|
|
tType^.kind := pointerType;
|
|
tType^.pType := expressionType^.aType;
|
|
expressionType := tType;
|
|
end; {if}
|
|
end {if}
|
|
else begin
|
|
|
|
{scalar subtraction}
|
|
if expressionType^.kind <> scalarType then
|
|
error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_sbi);
|
|
cgLong,cgULong:
|
|
Gen0(pc_sbl);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_sbq);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
Gen0(pc_sbr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {else}
|
|
end; {case minusch}
|
|
|
|
asteriskch: begin {*}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgWord:
|
|
Gen0(pc_mpi);
|
|
cgUByte,cgUWord:
|
|
Gen0(pc_umi);
|
|
cgLong:
|
|
Gen0(pc_mpl);
|
|
cgULong:
|
|
Gen0(pc_uml);
|
|
cgQuad:
|
|
Gen0(pc_mpq);
|
|
cgUQuad:
|
|
Gen0(pc_umq);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
Gen0(pc_mpr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case asteriskch}
|
|
|
|
slashch: begin {/}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgWord:
|
|
Gen0(pc_dvi);
|
|
cgUByte,cgUWord:
|
|
Gen0(pc_udi);
|
|
cgLong:
|
|
Gen0(pc_dvl);
|
|
cgULong:
|
|
Gen0(pc_udl);
|
|
cgQuad:
|
|
Gen0(pc_dvq);
|
|
cgUQuad:
|
|
Gen0(pc_udq);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
Gen0(pc_dvr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
if ((lint & lintOverflow) <> 0) then
|
|
CheckDivByZero(tree^.right^.token, expressionType);
|
|
end; {case slashch}
|
|
|
|
percentch: begin {%}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
if (lType^.kind <> scalarType) or (expressionType^.kind <> scalarType) then
|
|
Error(66)
|
|
else case UsualBinaryConversions(lType) of
|
|
cgByte,cgWord:
|
|
Gen0(pc_mod);
|
|
cgUByte,cgUWord:
|
|
Gen0(pc_uim);
|
|
cgLong:
|
|
Gen0(pc_mdl);
|
|
cgULong:
|
|
Gen0(pc_ulm);
|
|
cgQuad:
|
|
Gen0(pc_mdq);
|
|
cgUQuad:
|
|
Gen0(pc_uqm);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
if ((lint & lintOverflow) <> 0) then
|
|
CheckDivByZero(tree^.right^.token, expressionType);
|
|
end; {case percentch}
|
|
|
|
eqeqop, {==}
|
|
exceqop: begin {!=}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
tlastwasconst := lastwasconst;
|
|
tlastconst := lastconst;
|
|
GenerateCode(tree^.right);
|
|
CompareCompatible(ltype, expressionType);
|
|
if tree^.token.kind = eqeqop then
|
|
Gen0t(pc_equ, UsualBinaryConversions(lType))
|
|
else
|
|
Gen0t(pc_neq, UsualBinaryConversions(lType));
|
|
expressionType := intPtr;
|
|
end; {case exceqop,eqeqop}
|
|
|
|
lteqop, {<=}
|
|
gteqop, {>=}
|
|
ltch, {<}
|
|
gtch: begin {>}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
GenerateCode(tree^.right);
|
|
CompareCompatible(ltype, expressionType);
|
|
if tree^.token.kind = lteqop then
|
|
Gen0t(pc_leq, UsualBinaryConversions(lType))
|
|
else if tree^.token.kind = gteqop then
|
|
Gen0t(pc_geq, UsualBinaryConversions(lType))
|
|
else if tree^.token.kind = ltch then
|
|
Gen0t(pc_les, UsualBinaryConversions(lType))
|
|
else {if tree^.token.kind = gtch then}
|
|
Gen0t(pc_grt, UsualBinaryConversions(lType));
|
|
expressionType := intPtr;
|
|
end; {case lteqop,gteqop,ltch,gtch}
|
|
|
|
uminus: begin {unary -}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.kind <> scalarType then
|
|
error(66)
|
|
else case UsualUnaryConversions of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_ngi);
|
|
cgLong,cgULong:
|
|
Gen0(pc_ngl);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_ngq);
|
|
cgReal,cgDouble,cgComp,cgExtended:
|
|
Gen0(pc_ngr);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case uminus}
|
|
|
|
tildech: begin {~}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.kind <> scalarType then
|
|
error(66)
|
|
else case UsualUnaryConversions of
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_bnt);
|
|
cgLong,cgULong:
|
|
Gen0(pc_bnl);
|
|
cgQuad,cgUQuad:
|
|
Gen0(pc_bnq);
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
end; {case tildech}
|
|
|
|
excch: begin {!}
|
|
GenerateCode(tree^.left);
|
|
if expressionType^.kind = pointerType then
|
|
expressionType := uLongPtr;
|
|
case UsualUnaryConversions of
|
|
|
|
cgByte,cgUByte,cgWord,cgUWord:
|
|
Gen0(pc_not);
|
|
|
|
cgLong,cgULong: begin
|
|
GenLdcLong(0);
|
|
Gen0t(pc_equ, cgLong);
|
|
end;
|
|
|
|
cgQuad,cgUQuad: begin
|
|
GenLdcQuad(longlong0);
|
|
Gen0t(pc_equ, cgQuad);
|
|
end;
|
|
|
|
cgReal,cgDouble,cgComp,cgExtended: begin
|
|
GenLdcReal(0.0);
|
|
Gen0t(pc_equ, cgExtended);
|
|
end;
|
|
|
|
otherwise:
|
|
error(66);
|
|
end; {case}
|
|
expressionType := intPtr;
|
|
end; {case excch}
|
|
|
|
plusplusop: {prefix ++}
|
|
DoIncDec(tree^.left, pc_lil, pc_gil, pc_iil);
|
|
|
|
opplusplus: {postfix ++}
|
|
DoIncDec(tree^.left, pc_lli, pc_gli, pc_ili);
|
|
|
|
minusminusop: {prefix --}
|
|
DoIncDec(tree^.left, pc_ldl, pc_gdl, pc_idl);
|
|
|
|
opminusminus: {postfix --}
|
|
DoIncDec(tree^.left, pc_lld, pc_gld, pc_ild);
|
|
|
|
uand: {unary & (address operator)}
|
|
LoadAddress(tree^.left);
|
|
|
|
uasterisk: begin {unary * (indirection)}
|
|
GenerateCode(tree^.left);
|
|
lType := expressionType;
|
|
if lType^.kind in [functiontype,arrayType,pointerType] then begin
|
|
if lType^.kind = arrayType then
|
|
lType := lType^.aType
|
|
else if lType^.kind = pointerType then
|
|
lType := lType^.pType;
|
|
expressionType := lType;
|
|
if lType^.kind = scalarType then
|
|
if lType^.baseType = cgVoid then
|
|
Gen1t(pc_ind, 0, cgULong)
|
|
else
|
|
Gen1t(pc_ind, 0, lType^.baseType)
|
|
else if lType^.kind = pointerType then
|
|
Gen1t(pc_ind, 0, cgULong)
|
|
else if not
|
|
((lType^.kind in [functionType,arrayType,structType,unionType])
|
|
or ((lType^.kind = definedType) and {handle const struct/union}
|
|
(lType^.dType^.kind in [structType,unionType]))) then
|
|
Error(79);
|
|
end {if}
|
|
else
|
|
Error(79);
|
|
end; {case uasterisk}
|
|
|
|
dotch: begin {.}
|
|
LoadAddress(tree^.left);
|
|
lType := expressionType;
|
|
if lType^.kind in [arrayType,pointerType] then begin
|
|
if lType^.kind = arrayType then
|
|
lType := lType^.aType
|
|
else if lType^.kind = pointerType then
|
|
lType := lType^.pType;
|
|
DoSelection(lType, tree^.right, size);
|
|
if (size & $00007FFF) <> size then begin
|
|
GenLdcLong(size);
|
|
Gen0(pc_adl);
|
|
size := 0;
|
|
end; {else}
|
|
kind := expressionType^.kind;
|
|
if kind = scalarType then begin
|
|
et := expressionType^.baseType;
|
|
if isBitField then begin
|
|
GenLdcLong(size);
|
|
Gen0(pc_adl);
|
|
if unsigned then
|
|
Gen2t(pc_lbu, bitDisp, bitSize, et)
|
|
else
|
|
Gen2t(pc_lbf, bitDisp, bitSize, et);
|
|
end {if}
|
|
else
|
|
Gen1t(pc_ind, long(size).lsw, et);
|
|
end {if}
|
|
else if kind = pointerType then
|
|
Gen1t(pc_ind, long(size).lsw, cgULong)
|
|
else if kind = enumType then
|
|
Gen1t(pc_ind, long(size).lsw, cgWord)
|
|
else if size <> 0 then
|
|
Gen1t(pc_inc, long(size).lsw, cgULong);
|
|
end {if}
|
|
else
|
|
Error(79);
|
|
end; {case dotch}
|
|
|
|
colonch: begin {? :}
|
|
GenerateCode(tree^.left); {evaluate the condition}
|
|
CompareToZero(pc_neq);
|
|
GenerateCode(tree^.middle); {evaluate true expression}
|
|
lType := expressionType;
|
|
tlastwasconst := lastwasconst;
|
|
tlastconst := lastconst;
|
|
GenerateCode(tree^.right); {evaluate false expression}
|
|
isString := false; {handle string operands}
|
|
if lType^.kind in [arrayType,pointerType] then
|
|
if lType^.aType^.baseType = cgUByte then begin
|
|
with expressionType^ do
|
|
if kind in [arrayType,pointerType] then begin
|
|
if aType^.baseType = cgUByte then
|
|
isString := true
|
|
else if (kind = pointerType)
|
|
and (CompTypes(lType,expressionType)) then
|
|
{it's all OK}
|
|
else
|
|
Error(47)
|
|
end {if}
|
|
else if (kind = scalarType)
|
|
and lastWasConst
|
|
and (lastConst = 0) then
|
|
et := UsualBinaryConversions(lType)
|
|
{it's all OK}
|
|
else
|
|
Error(47);
|
|
lType := voidPtrPtr;
|
|
expressionType := voidPtrPtr;
|
|
end; {if}
|
|
with expressionType^ do
|
|
if kind in [arrayType,pointerType] then
|
|
if aType^.baseType in [cgByte,cgUByte] then begin
|
|
if kind = pointerType then begin
|
|
if tlastwasconst and (tlastconst = 0) then
|
|
{it's all OK}
|
|
else if CompTypes(lType, expressionType) then
|
|
{it's all OK}
|
|
else
|
|
Error(47);
|
|
end {if}
|
|
else
|
|
Error(47);
|
|
et := UsualBinaryConversions(lType);
|
|
lType := voidPtrPtr;
|
|
expressionType := voidPtrPtr;
|
|
end; {if}
|
|
{generate the operation}
|
|
if lType^.kind in [structType, unionType, arrayType] then begin
|
|
if not CompTypes(lType, expressionType) then
|
|
Error(47);
|
|
Gen0(pc_bno);
|
|
Gen0t(pc_tri, cgULong);
|
|
end {if}
|
|
else begin
|
|
if expressionType^.kind = pointerType then
|
|
tType := expressionType
|
|
else
|
|
tType := lType;
|
|
if (expressionType^.kind = scalarType)
|
|
and (expressionType^.baseType = cgVoid)
|
|
and (lType^.kind = scalarType)
|
|
and (lType^.baseType = cgVoid) then
|
|
et := cgVoid
|
|
else
|
|
et := UsualBinaryConversions(lType);
|
|
Gen0(pc_bno);
|
|
Gen0t(pc_tri, et);
|
|
end; {else}
|
|
if isString then {set the type for strings}
|
|
expressionType := stringTypePtr;
|
|
end; {case colonch}
|
|
|
|
castoper: begin {(cast)}
|
|
GenerateCode(tree^.left);
|
|
Cast(tree^.castType);
|
|
end; {case castoper}
|
|
|
|
otherwise:
|
|
Error(57);
|
|
|
|
end; {case}
|
|
if doDispose then
|
|
dispose(tree);
|
|
end; {GenerateCode}
|
|
|
|
|
|
procedure Expression {kind: expressionKind; stopSym: tokenSet};
|
|
|
|
{ handle an expression }
|
|
{ }
|
|
{ parameters: }
|
|
{ kind - Kind of expression; determines what operations }
|
|
{ and what kind of operands are allowed. }
|
|
{ stopSym - Set of symbols that can mark the end of an }
|
|
{ expression; used to skip tokens after syntax }
|
|
{ errors and to block certain operations. For }
|
|
{ example, the comma operator is not allowed in }
|
|
{ an expression when evaluating a function }
|
|
{ parameter list. }
|
|
{ }
|
|
{ variables: }
|
|
{ realExpressionValue - value of a real constant }
|
|
{ expression }
|
|
{ expressionValue - value of a constant expression }
|
|
{ expressionType - type of the expression }
|
|
|
|
label 1;
|
|
|
|
var
|
|
lcodeGeneration: boolean; {local copy of codeGeneration}
|
|
ldoDispose: boolean; {local copy of doDispose}
|
|
tree: tokenPtr; {expression tree}
|
|
castValue: tokenPtr; {element being type cast}
|
|
|
|
begin {Expression}
|
|
errorFound := false; {no error so far}
|
|
tree := ExpressionTree(kind, stopSym); {create the expression tree}
|
|
if kind = normalExpression then begin {generate code from the expression tree}
|
|
if not errorFound then begin
|
|
doDispose := true;
|
|
GenerateCode(tree);
|
|
end {if}
|
|
else
|
|
expressionType := intPtr; {set default type in case of error}
|
|
end {if}
|
|
else begin {record the expression for an initializer}
|
|
initializerTree := tree;
|
|
isConstant := false;
|
|
llExpressionValue.lo := 0;
|
|
llExpressionValue.hi := 0;
|
|
expressionIsLongLong := false;
|
|
if errorFound then begin
|
|
DisposeTree(initializerTree);
|
|
initializerTree := nil;
|
|
expressionType := intPtr; {set default type in case of error}
|
|
end {if}
|
|
else begin
|
|
ldoDispose := doDispose; {find the expression type}
|
|
doDispose := false;
|
|
lcodeGeneration := codeGeneration;
|
|
codeGeneration := false;
|
|
GenerateCode(tree);
|
|
doDispose := ldoDispose;
|
|
codeGeneration := lCodeGeneration and (numErrors = 0);
|
|
{record the expression}
|
|
if tree^.token.kind = castoper then begin
|
|
castValue := tree^.left;
|
|
while castValue^.token.kind = castoper do
|
|
castValue := castValue^.left;
|
|
if castValue^.token.kind in
|
|
[intconst,uintconst,charconst,scharconst,ucharconst] then begin
|
|
expressionValue := castValue^.token.ival;
|
|
isConstant := true;
|
|
expressionType := tree^.castType;
|
|
if (castValue^.token.kind = uintconst)
|
|
or (expressionType^.kind = pointerType) then
|
|
expressionValue := expressionValue & $0000FFFF;
|
|
goto 1;
|
|
end; {if}
|
|
if castValue^.token.kind in [longconst,ulongconst] then begin
|
|
expressionValue := castValue^.token.lval;
|
|
isConstant := true;
|
|
expressionType := tree^.castType;
|
|
goto 1;
|
|
end; {if}
|
|
end; {if}
|
|
if tree^.token.kind in [intconst,charconst,scharconst,ucharconst] then
|
|
begin
|
|
expressionValue := tree^.token.ival;
|
|
if tree^.token.kind = intconst then
|
|
expressionType := intPtr
|
|
else if tree^.token.kind = charconst then
|
|
expressionType := charPtr
|
|
else if tree^.token.kind = scharconst then
|
|
expressionType := scharPtr
|
|
else {if tree^.token.kind = ucharconst then}
|
|
expressionType := ucharPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind = uintconst then begin
|
|
expressionValue := tree^.token.ival;
|
|
expressionValue := expressionValue & $0000FFFF;
|
|
expressionType := uIntPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind = longconst then begin
|
|
expressionValue := tree^.token.lval;
|
|
expressionType := longPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind = ulongconst then begin
|
|
expressionValue := tree^.token.lval;
|
|
expressionType := ulongPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind = longlongconst then begin
|
|
llExpressionValue := tree^.token.qval;
|
|
expressionIsLongLong := true;
|
|
if ((llExpressionValue.hi = 0) and (llExpressionValue.lo >= 0))
|
|
or ((llExpressionValue.hi = -1) and (llExpressionValue.lo < 0)) then
|
|
expressionValue := llExpressionValue.lo
|
|
else if llExpressionValue.hi < 0 then
|
|
expressionValue := $80000000
|
|
else
|
|
expressionValue := $7fffffff;
|
|
expressionType := longLongPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind = ulonglongconst then begin
|
|
llExpressionValue := tree^.token.qval;
|
|
expressionIsLongLong := true;
|
|
if llExpressionValue.hi = 0 then
|
|
expressionValue := llExpressionValue.lo
|
|
else
|
|
expressionValue := $FFFFFFFF;
|
|
expressionType := ulongLongPtr;
|
|
isConstant := true;
|
|
end {else if}
|
|
else if tree^.token.kind in
|
|
[floatconst,doubleconst,extendedconst,compconst] then begin
|
|
realExpressionValue := tree^.token.rval;
|
|
if tree^.token.kind = extendedconst then
|
|
expressionType := extendedPtr
|
|
else if tree^.token.kind = doubleconst then
|
|
expressionType := doublePtr
|
|
else if tree^.token.kind = floatconst then
|
|
expressionType := floatPtr
|
|
else {if tree^.token.kind = compconst then}
|
|
expressionType := compPtr;
|
|
isConstant := true;
|
|
if kind in [arrayExpression,preprocessorExpression] then begin
|
|
expressionType := intPtr;
|
|
expressionValue := 1;
|
|
Error(47);
|
|
end; {if}
|
|
end {else if}
|
|
else if tree^.token.kind = stringconst then begin
|
|
expressionValue := ord4(tree^.token.sval);
|
|
expressionType := stringTypePtr;
|
|
isConstant := true;
|
|
if kind in [arrayExpression,preprocessorExpression] then begin
|
|
expressionType := intPtr;
|
|
expressionValue := 1;
|
|
Error(47);
|
|
end; {if}
|
|
end {else if}
|
|
else if kind in [arrayExpression,preprocessorExpression] then begin
|
|
DisposeTree(initializerTree);
|
|
expressionValue := 1;
|
|
end; {else if}
|
|
end; {else}
|
|
end; {else}
|
|
1:
|
|
end; {Expression}
|
|
|
|
|
|
procedure GetLLExpressionValue {var val: longlong};
|
|
|
|
{ get the value of the last integer constant expression as a }
|
|
{ long long (whether it had long long type or not). }
|
|
|
|
begin {GetLLExpressionValue}
|
|
if expressionIsLongLong then
|
|
val := llExpressionValue
|
|
else begin
|
|
val.lo := expressionValue;
|
|
val.hi := 0;
|
|
if expressionValue < 0 then
|
|
if expressionType^.kind = scalarType then
|
|
if expressionType^.baseType in [cgByte,cgWord,cgLong] then
|
|
val.hi := -1;
|
|
end;
|
|
end; {GetLLExpressionValue}
|
|
|
|
|
|
procedure InitExpression;
|
|
|
|
{ initialize the expression handler }
|
|
|
|
begin {InitExpression}
|
|
startTerm := [ident,intconst,uintconst,longconst,ulongconst,longlongconst,
|
|
ulonglongconst,floatconst,doubleconst,extendedconst,compconst,
|
|
charconst,scharconst,ucharconst,stringconst];
|
|
startExpression:= startTerm +
|
|
[lparench,asteriskch,andch,plusch,minusch,excch,tildech,sizeofsy,
|
|
plusplusop,minusminusop,typedef,_Alignofsy,_Genericsy];
|
|
end; {InitExpression}
|
|
|
|
end.
|
|
|
|
{$append 'expression.asm'}
|