mirror of
https://github.com/ZDoom/qzdoom.git
synced 2024-11-25 05:21:02 +00:00
Renamed "VectorInitializer" to "VectorValue"
This was really confusing for me as this is an actual vector "value" rather than an "initializer"
This commit is contained in:
parent
ac1c022911
commit
94410accf4
6 changed files with 37 additions and 43 deletions
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@ -446,8 +446,8 @@ ExpEmit FxConstant::Emit(VMFunctionBuilder *build)
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//
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//==========================================================================
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FxVectorInitializer::FxVectorInitializer(FxExpression *x, FxExpression *y, FxExpression *z, const FScriptPosition &sc)
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:FxExpression(EFX_VectorInitializer, sc)
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FxVectorValue::FxVectorValue(FxExpression *x, FxExpression *y, FxExpression *z, const FScriptPosition &sc)
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:FxExpression(EFX_VectorValue, sc)
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{
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xyz[0] = x;
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xyz[1] = y;
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@ -456,13 +456,13 @@ FxVectorInitializer::FxVectorInitializer(FxExpression *x, FxExpression *y, FxExp
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ValueType = TypeVoid; // we do not know yet
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}
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FxVectorInitializer::~FxVectorInitializer()
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FxVectorValue::~FxVectorValue()
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{
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for (auto &a : xyz)
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SAFE_DELETE(a);
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}
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FxExpression *FxVectorInitializer::Resolve(FCompileContext&ctx)
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FxExpression *FxVectorValue::Resolve(FCompileContext&ctx)
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{
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bool fails = false;
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@ -501,10 +501,10 @@ FxExpression *FxVectorInitializer::Resolve(FCompileContext&ctx)
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return nullptr;
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}
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ValueType = TypeVector3;
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if (xyz[0]->ExprType == EFX_VectorInitializer)
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if (xyz[0]->ExprType == EFX_VectorValue)
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{
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// If two vector initializers are nested, unnest them now.
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auto vi = static_cast<FxVectorInitializer*>(xyz[0]);
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auto vi = static_cast<FxVectorValue*>(xyz[0]);
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xyz[2] = xyz[1];
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xyz[1] = vi->xyz[1];
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xyz[0] = vi->xyz[0];
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@ -542,7 +542,7 @@ static ExpEmit EmitKonst(VMFunctionBuilder *build, ExpEmit &emit)
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return emit;
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}
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ExpEmit FxVectorInitializer::Emit(VMFunctionBuilder *build)
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ExpEmit FxVectorValue::Emit(VMFunctionBuilder *build)
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{
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// no const handling here. Ultimstely it's too rarely used (i.e. the only fully constant vector ever allocated in ZDoom is the 0-vector in a very few places)
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// and the negatives (excessive allocation of float constants) outweigh the positives (saved a few instructions)
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@ -265,7 +265,7 @@ enum EFxType
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EFX_LocalVariableDeclaration,
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EFX_SwitchStatement,
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EFX_CaseStatement,
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EFX_VectorInitializer,
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EFX_VectorValue,
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EFX_VectorBuiltin,
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EFX_TypeCheck,
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EFX_COUNT
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@ -463,14 +463,14 @@ public:
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//
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//==========================================================================
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class FxVectorInitializer : public FxExpression
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class FxVectorValue : public FxExpression
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{
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FxExpression *xyz[3];
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bool isConst; // gets set to true if all element are const
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public:
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FxVectorInitializer(FxExpression *x, FxExpression *y, FxExpression *z, const FScriptPosition &sc);
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~FxVectorInitializer();
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FxVectorValue(FxExpression *x, FxExpression *y, FxExpression *z, const FScriptPosition &sc);
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~FxVectorValue();
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FxExpression *Resolve(FCompileContext&);
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ExpEmit Emit(VMFunctionBuilder *build);
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@ -623,7 +623,7 @@ static void PrintExprTrinary(FLispString &out, ZCC_TreeNode *node)
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static void PrintVectorInitializer(FLispString &out, ZCC_TreeNode *node)
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{
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ZCC_VectorInitializer *enode = (ZCC_VectorInitializer *)node;
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ZCC_VectorValue *enode = (ZCC_VectorValue *)node;
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OpenExprType(out, enode->Operation);
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PrintNodes(out, enode->X);
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PrintNodes(out, enode->Y);
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@ -945,7 +945,6 @@ func_param_flags(X) ::= func_param_flags(A) OPTIONAL(T). { X.Int = A.Int | ZCC_O
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%type expr{ZCC_Expression *}
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%type primary{ZCC_Expression *}
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%type vectorinit{ZCC_VectorInitializer*}
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%type unary_expr{ZCC_Expression *}
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%type constant{ZCC_ExprConstant *}
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@ -967,8 +966,26 @@ primary(X) ::= SUPER(T).
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X = expr;
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}
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primary(X) ::= constant(A). { X = A; /*X-overwrites-A*/ }
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primary(X) ::= vectorinit(A). { X = A; /*X-overwrites-A*/ }
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primary(XX) ::= LPAREN expr(A) COMMA expr(B) COMMA expr(C) RPAREN. [DOT]
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{
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NEW_AST_NODE(VectorValue, expr, A);
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expr->Operation = PEX_Vector;
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expr->Type = TypeVector3;
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expr->X = A;
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expr->Y = B;
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expr->Z = C;
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XX = expr;
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}
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primary(XX) ::= LPAREN expr(A) COMMA expr(B) RPAREN. [DOT]
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{
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NEW_AST_NODE(VectorValue, expr, A);
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expr->Operation = PEX_Vector;
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expr->Type = TypeVector2;
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expr->X = A;
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expr->Y = B;
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expr->Z = nullptr;
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XX = expr;
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}
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primary(X) ::= LPAREN expr(A) RPAREN.
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{
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X = A; /*X-overwrites-A*/
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@ -1019,29 +1036,6 @@ primary(X) ::= SCOPE primary(B).
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}
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*/
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vectorinit(XX) ::= LPAREN expr(A) COMMA expr(B) COMMA expr(C) RPAREN. [DOT]
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{
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NEW_AST_NODE(VectorInitializer, expr, A);
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expr->Operation = PEX_Vector;
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expr->Type = TypeVector3;
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expr->X = A;
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expr->Y = B;
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expr->Z = C;
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XX = expr;
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}
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vectorinit(XX) ::= LPAREN expr(A) COMMA expr(B) RPAREN. [DOT]
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{
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NEW_AST_NODE(VectorInitializer, expr, A);
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expr->Operation = PEX_Vector;
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expr->Type = TypeVector2;
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expr->X = A;
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expr->Y = B;
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expr->Z = nullptr;
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XX = expr;
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}
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/*----- Unary Expressions -----*/
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unary_expr(X) ::= primary(X).
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@ -2712,13 +2712,13 @@ FxExpression *ZCCCompiler::ConvertNode(ZCC_TreeNode *ast)
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return new FxConditional(condition, left, right);
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}
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case AST_VectorInitializer:
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case AST_VectorValue:
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{
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auto vecini = static_cast<ZCC_VectorInitializer *>(ast);
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auto vecini = static_cast<ZCC_VectorValue *>(ast);
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auto xx = ConvertNode(vecini->X);
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auto yy = ConvertNode(vecini->Y);
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auto zz = ConvertNode(vecini->Z);
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return new FxVectorInitializer(xx, yy, zz, *ast);
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return new FxVectorValue(xx, yy, zz, *ast);
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}
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case AST_LocalVarStmt:
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@ -98,7 +98,7 @@ enum EZCCTreeNodeType
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AST_Default,
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AST_FlagStmt,
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AST_PropertyStmt,
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AST_VectorInitializer,
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AST_VectorValue,
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NUM_AST_NODE_TYPES
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};
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@ -385,7 +385,7 @@ struct ZCC_ExprTrinary : ZCC_Expression
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ZCC_Expression *Right;
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};
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struct ZCC_VectorInitializer : ZCC_Expression
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struct ZCC_VectorValue : ZCC_Expression
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{
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ZCC_Expression *X, *Y, *Z;
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};
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