delphimvcframework/sources/TemplatePro.pas

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// ***************************************************************************
//
// Copyright (c) 2016-2024 Daniele Teti
//
// https://github.com/danieleteti/templatepro
//
// ***************************************************************************
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
// ***************************************************************************
unit TemplatePro;
interface
uses
System.Generics.Collections,
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System.Generics.Defaults,
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System.Classes,
System.SysUtils,
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System.TypInfo,
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Data.DB,
System.DateUtils,
System.RTTI;
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const
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TEMPLATEPRO_VERSION = '0.7.1';
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type
ETProException = class(Exception)
end;
ETProCompilerException = class(ETProException)
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end;
ETProRenderException = class(ETProException)
end;
ETProDuckTypingException = class(ETProException)
end;
TIfThenElseIndex = record
IfIndex, ElseIndex: Int64;
end;
TTokenType = (ttContent, ttInclude, ttFor, ttEndFor, ttIfThen, ttBoolExpression, ttElse, ttEndIf, ttStartTag,
ttComment, ttJump, ttBlock, ttEndBlock, ttContinue, ttLiteralString, ttEndTag, ttValue, ttFilterName,
ttFilterParameter, ttLineBreak, ttSystemVersion, ttExit, ttEOF, ttInfo);
const
TOKEN_TYPE_DESCR: array [Low(TTokenType) .. High(TTokenType)] of string = ('ttContent', 'ttInclude', 'ttFor',
'ttEndFor', 'ttIfThen', 'ttBoolExpression', 'ttElse', 'ttEndIf', 'ttStartTag', 'ttComment', 'ttJump', 'ttBlock',
'ttEndBlock', 'ttContinue', 'ttLiteralString', 'ttEndTag', 'ttValue', 'ttFilterName', 'ttFilterParameter',
'ttLineBreak', 'ttSystemVersion', 'ttExit', 'ttEOF', 'ttInfo');
const
{ ttInfo value1 can be: }
STR_BEGIN_OF_LAYOUT = 'begin_of_layout';
STR_END_OF_LAYOUT = 'end_of_layout';
type
TToken = packed record
TokenType: TTokenType;
Value1: String;
Value2: String;
Ref1, Ref2: Int64;
class function Create(TokType: TTokenType; Value1: String; Value2: String; Ref1: Int64 = -1; Ref2: Int64 = -1)
: TToken; static;
function TokenTypeAsString: String;
function ToString: String;
procedure SaveToBytes(const aBytes: TBinaryWriter);
class function CreateFromBytes(const aBytes: TBinaryReader): TToken; static;
end;
TBlockAddress = record
BeginBlockAddress, EndBlockAddress: Int64;
class function Create(BeginBlockAddress, EndBlockAddress: Int64): TBlockAddress; static;
end;
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TTokenWalkProc = reference to procedure(const Index: Integer; const Token: TToken);
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TTProTemplateFunction = function(const aValue: TValue; const aParameters: TArray<string>): TValue;
TTProTemplateAnonFunction = reference to function(const aValue: TValue; const aParameters: TArray<string>): TValue;
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TTProVariablesInfo = (viSimpleType, viObject, viDataSet, viListOfObject, viJSONObject, viIterable);
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TTProVariablesInfos = set of TTProVariablesInfo;
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TVarDataSource = class
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protected
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VarValue: TValue;
VarOption: TTProVariablesInfos;
constructor Create(const VarValue: TValue; const VarOption: TTProVariablesInfos);
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end;
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TTProEqualityComparer = class(TEqualityComparer<string>)
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public
function Equals(const Left, Right: String): Boolean; override;
function GetHashCode(const Value: String): Integer; override;
end;
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TTProVariables = class(TObjectDictionary<string, TVarDataSource>)
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public
constructor Create;
end;
TTProCompiledTemplateGetValueEvent = reference to procedure(const DataSource, Members: string; var Value: TValue;
var Handled: Boolean);
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PTProFormatSettings = ^TFormatSettings;
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ITProCompiledTemplate = interface
['{0BE04DE7-6930-456B-86EE-BFD407BA6C46}']
function Render: String;
procedure ForEachToken(const TokenProc: TTokenWalkProc);
procedure ClearData;
procedure SetData(const Name: String; Value: TValue); overload;
procedure AddFilter(const FunctionName: string; const FunctionImpl: TTProTemplateFunction); overload;
procedure AddFilter(const FunctionName: string; const AnonFunctionImpl: TTProTemplateAnonFunction); overload;
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procedure DumpToFile(const FileName: String);
procedure SaveToFile(const FileName: String);
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function GetOnGetValue: TTProCompiledTemplateGetValueEvent;
procedure SetOnGetValue(const Value: TTProCompiledTemplateGetValueEvent);
property OnGetValue: TTProCompiledTemplateGetValueEvent read GetOnGetValue write SetOnGetValue;
function GetFormatSettings: PTProFormatSettings;
procedure SetFormatSettings(const Value: PTProFormatSettings);
property FormatSettings: PTProFormatSettings read GetFormatSettings write SetFormatSettings;
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end;
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TTProCompiledTemplateEvent = reference to procedure(const TemplateProCompiledTemplate: ITProCompiledTemplate);
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TLoopStackItem = class
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protected
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DataSourceName: String;
LoopExpression: String;
FullPath: String;
IteratorName: String;
IteratorPosition: Integer;
function IncrementIteratorPosition: Integer;
constructor Create(DataSourceName: String; LoopExpression: String; FullPath: String; IteratorName: String);
end;
TTProTemplateSectionType = (stUnknown, stLayout, stPage);
TTProCompilerOption = (coIgnoreSysVersion, coParentTemplate);
TTProCompilerOptions = set of TTProCompilerOption;
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TTProCompiledTemplate = class(TInterfacedObject, ITProCompiledTemplate)
private
fLocaleFormatSettings: TFormatSettings;
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fTokens: TList<TToken>;
fVariables: TTProVariables;
fTemplateFunctions: TDictionary<string, TTProTemplateFunction>;
fTemplateAnonFunctions: TDictionary<string, TTProTemplateAnonFunction>;
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fLoopsStack: TObjectList<TLoopStackItem>;
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fOnGetValue: TTProCompiledTemplateGetValueEvent;
procedure InitTemplateAnonFunctions; inline;
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function PeekLoop: TLoopStackItem;
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procedure PopLoop;
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procedure PushLoop(const LoopStackItem: TLoopStackItem);
function LoopStackIsEmpty: Boolean;
function WalkThroughLoopStack(const VarName: String; out BaseVarName: String; out FullPath: String): Boolean;
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constructor Create(Tokens: TList<TToken>);
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procedure Error(const aMessage: String); overload;
procedure Error(const aMessage: String; const Params: array of const); overload;
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function IsTruthy(const Value: TValue): Boolean;
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function GetVarAsString(const Name: string): string;
function GetTValueVarAsString(const Value: TValue; const VarName: string = ''): String;
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function GetVarAsTValue(const aName: string): TValue;
function GetDataSetFieldAsTValue(const aDataSet: TDataSet; const FieldName: String): TValue;
function EvaluateIfExpressionAt(var Idx: Int64): Boolean;
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function GetVariables: TTProVariables;
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procedure SplitVariableName(const VariableWithMember: String; out VarName, VarMembers: String);
function ExecuteFilter(aFunctionName: string; aParameters: TArray<string>; aValue: TValue; const aVarNameWhereShoudBeApplied: String): TValue;
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procedure CheckParNumber(const aHowManyPars: Integer; const aParameters: TArray<string>); overload;
procedure CheckParNumber(const aMinParNumber, aMaxParNumber: Integer; const aParameters: TArray<string>); overload;
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function GetPseudoVariable(const VarIterator: Integer; const PseudoVarName: String): TValue; overload;
function IsAnIterator(const VarName: String; out DataSourceName: String;
out CurrentIterator: TLoopStackItem): Boolean;
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function GetOnGetValue: TTProCompiledTemplateGetValueEvent;
function EvaluateValue(var Idx: Int64; out MustBeEncoded: Boolean): TValue;
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procedure SetOnGetValue(const Value: TTProCompiledTemplateGetValueEvent);
procedure DoOnGetValue(const DataSource, Members: string; var Value: TValue; var Handled: Boolean);
function GetFormatSettings: PTProFormatSettings;
procedure SetFormatSettings(const Value: PTProFormatSettings);
class procedure InternalDumpToFile(const FileName: String; const aTokens: TList<TToken>);
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public
destructor Destroy; override;
function Render: String;
procedure ForEachToken(const TokenProc: TTokenWalkProc);
procedure ClearData;
procedure SaveToFile(const FileName: String);
class function CreateFromFile(const FileName: String): ITProCompiledTemplate;
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procedure SetData(const Name: String; Value: TValue); overload;
procedure AddFilter(const FunctionName: string; const FunctionImpl: TTProTemplateFunction); overload;
procedure AddFilter(const FunctionName: string; const AnonFunctionImpl: TTProTemplateAnonFunction); overload;
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procedure DumpToFile(const FileName: String);
property FormatSettings: PTProFormatSettings read GetFormatSettings write SetFormatSettings;
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property OnGetValue: TTProCompiledTemplateGetValueEvent read GetOnGetValue write SetOnGetValue;
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end;
TTProCompiler = class
strict private
function MatchStartTag: Boolean;
function MatchEndTag: Boolean;
function MatchVariable(var aIdentifier: string): Boolean;
function MatchFilterParamValue(var aParamValue: string): Boolean;
function MatchSymbol(const aSymbol: string): Boolean;
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function MatchSpace: Boolean;
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function MatchString(out aStringValue: string): Boolean;
procedure InternalMatchFilter(lIdentifier: String; var lStartVerbatim: Int64; const CurrToken: TTokenType;
aTokens: TList<TToken>; const lRef2: Integer);
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function GetFunctionParameters: TArray<String>;
private
fOptions: TTProCompilerOptions;
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fInputString: string;
fCharIndex: Int64;
fCurrentLine: Integer;
fEncoding: TEncoding;
fCurrentFileName: String;
procedure Error(const aMessage: string);
function Step: Char;
function CurrentChar: Char;
function GetSubsequentText: String;
procedure InternalCompileIncludedTemplate(
const aTemplate: string;
const aTokens: TList<TToken>;
const aFileNameRefPath: String;
const aCompilerOptions: TTProCompilerOptions);
procedure ProcessJumps(const aTokens: TList<TToken>);
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procedure Compile(const aTemplate: string; const aTokens: TList<TToken>; const aFileNameRefPath: String); overload;
constructor Create(const aEncoding: TEncoding; const aOptions: TTProCompilerOptions = []); overload;
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procedure MatchFilter(lVarName: string; var lFuncName: string; var lFuncParamsCount: Integer; var lFuncParams: TArray<String>);
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public
function Compile(const aTemplate: string; const aFileNameRefPath: String = ''): ITProCompiledTemplate; overload;
constructor Create(aEncoding: TEncoding = nil); overload;
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end;
ITProWrappedList = interface
['{C1963FBF-1E42-4E2A-A17A-27F3945F13ED}']
function GetItem(const AIndex: Integer): TObject;
procedure Add(const AObject: TObject);
function Count: Integer;
procedure Clear;
function IsWrappedList: Boolean; overload;
function ItemIsObject(const AIndex: Integer; out aValue: TValue): Boolean;
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end;
TTProConfiguration = class sealed
private
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class var fOnContextConfiguration: TTProCompiledTemplateEvent;
protected
class procedure RegisterHandlers(const TemplateProCompiledTemplate: ITProCompiledTemplate);
public
class property OnContextConfiguration: TTProCompiledTemplateEvent read fOnContextConfiguration
write fOnContextConfiguration;
end;
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function HTMLEncode(s: string): string;
function HandleTemplateSectionStateMachine(
const aTokenValue1: String;
var aTemplateSectionType: TTProTemplateSectionType;
out aErrorMessage: String): Boolean;
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implementation
uses
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System.StrUtils, System.IOUtils, System.NetEncoding, System.Math, System.Character,
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JsonDataObjects, MVCFramework.Nullables;
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const
Sign = ['-', '+'];
Numbers = ['0' .. '9'];
SignAndNumbers = Sign + Numbers;
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IdenfierAllowedFirstChars = ['a' .. 'z', 'A' .. 'Z', '_', '@'];
IdenfierAllowedChars = ['a' .. 'z', 'A' .. 'Z', '_'] + Numbers;
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ValueAllowedChars = IdenfierAllowedChars + [' ', '-', '+', '*', '.', '@', '/', '\']; // maybe a lot others
START_TAG = '{{';
END_TAG = '}}';
type
TTProRTTIUtils = class sealed
public
class function GetProperty(AObject: TObject; const APropertyName: string): TValue;
end;
TTProDuckTypedList = class(TInterfacedObject, ITProWrappedList)
private
FObjectAsDuck: TObject;
FObjType: TRttiType;
FAddMethod: TRttiMethod;
FClearMethod: TRttiMethod;
FCountProperty: TRttiProperty;
FGetItemMethod: TRttiMethod;
FGetCountMethod: TRttiMethod;
protected
procedure Add(const AObject: TObject);
procedure Clear;
function ItemIsObject(const AIndex: Integer; out aValue: TValue): Boolean;
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public
constructor Create(const AObjectAsDuck: TObject); overload;
constructor Create(const AInterfaceAsDuck: IInterface); overload;
function IsWrappedList: Boolean; overload;
function Count: Integer;
procedure GetItemAsTValue(const AIndex: Integer; out aValue: TValue);
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function GetItem(const AIndex: Integer): TObject;
class function CanBeWrappedAsList(const AObjectAsDuck: TObject): Boolean; overload; static;
class function CanBeWrappedAsList(const AObjectAsDuck: TObject; out AMVCList: ITProWrappedList): Boolean;
overload; static;
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class function CanBeWrappedAsList(const AInterfaceAsDuck: IInterface): Boolean; overload; static;
class function Wrap(const AObjectAsDuck: TObject): ITProWrappedList; static;
end;
TComparandType = (ctEQ, ctNE, ctGT, ctGE, ctLT, ctLE);
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var
GlContext: TRttiContext;
function WrapAsList(const AObject: TObject): ITProWrappedList;
begin
Result := TTProDuckTypedList.Wrap(AObject);
end;
procedure FunctionError(const aFunctionName, aErrMessage: string);
begin
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raise ETProRenderException.Create(Format('[%1:s] %0:s (error in filter call for function [%1:s])', [aErrMessage, aFunctionName])) at ReturnAddress;
end;
function _Comparand(const aComparandType: TComparandType; const aValue: TValue; const aParameters: TArray<String>; const aLocaleFormatSettings: TFormatSettings): TValue;
var
lInt64Value: Int64;
lStrValue: string;
lExtendedValue: Extended;
function GetComparandResultStr(const aComparandType: TComparandType; const aLeftValue, aRightValue: String): TValue;
begin
case aComparandType of
ctEQ: Result := aLeftValue = aRightValue;
ctNE: Result := aLeftValue <> aRightValue;
ctGT: Result := aLeftValue > aRightValue;
ctGE: Result := aLeftValue >= aRightValue;
ctLT: Result := aLeftValue < aRightValue;
ctLE: Result := aLeftValue <= aRightValue;
else
raise ETProRenderException.Create('Invalid Comparand Type: ' + TRttiEnumerationType.GetName<TComparandType>(aComparandType));
end;
end;
begin
if Length(aParameters) <> 1 then
FunctionError(TRttiEnumerationType.GetName<TComparandType>(aComparandType), 'expected 1 parameter');
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if aValue.IsEmpty then
begin
FunctionError(TRttiEnumerationType.GetName<TComparandType>(aComparandType), 'Null variable for comparand');
end;
case aValue.TypeInfo.Kind of
tkInteger,tkEnumeration,tkInt64: begin
if TryStrToInt64(aParameters[0], lInt64Value) then
begin
case aComparandType of
ctEQ: Result := aValue.AsInt64 = lInt64Value;
ctNE: Result := aValue.AsInt64 <> lInt64Value;
ctGT: Result := aValue.AsInt64 > lInt64Value;
ctGE: Result := aValue.AsInt64 >= lInt64Value;
ctLT: Result := aValue.AsInt64 < lInt64Value;
ctLE: Result := aValue.AsInt64 <= lInt64Value;
else
raise ETProRenderException.Create('Invalid Comparand Type: ' + TRttiEnumerationType.GetName<TComparandType>(aComparandType));
end;
end
else
raise ETProRenderException.CreateFmt('Cannot convert comparand value for "%s" function to Integer',
[TRttiEnumerationType.GetName<TComparandType>(aComparandType)]);
end;
tkFloat: begin
if aValue.TypeInfo.Name = 'TDateTime' then
begin
lStrValue := DateTimeToStr(aValue.AsExtended, aLocaleFormatSettings);
Result := GetComparandResultStr(aComparandType, lStrValue, aParameters[0]);
end
else if aValue.TypeInfo.Name = 'TDate' then
begin
lStrValue := DateToStr(aValue.AsExtended, aLocaleFormatSettings);
Result := GetComparandResultStr(aComparandType, lStrValue, aParameters[0]);
end
else
begin
if TryStrToFloat(aParameters[0], lExtendedValue) then
begin
case aComparandType of
ctEQ: Result := aValue.AsExtended = lExtendedValue;
ctNE: Result := aValue.AsExtended <> lExtendedValue;
ctGT: Result := aValue.AsExtended > lExtendedValue;
ctGE: Result := aValue.AsExtended >= lExtendedValue;
ctLT: Result := aValue.AsExtended < lExtendedValue;
ctLE: Result := aValue.AsExtended <= lExtendedValue;
else
raise ETProRenderException.Create('Invalid Comparand Type: ' + TRttiEnumerationType.GetName<TComparandType>(aComparandType));
end
end
else
begin
raise ETProRenderException.Create('Cannot convert comparand value for ''ge'' function');
end;
end;
end;
else
begin
Result := GetComparandResultStr(aComparandType, aValue.AsString, aParameters[0]);
end;
end;
end;
function _eq(const aValue: TValue; const aParameters: TArray<String>; const aLocaleFormatSettings: TFormatSettings): TValue;
var
lStrValue: string;
begin
if Length(aParameters) <> 1 then
FunctionError('eq/ne', 'expected 1 parameter');
if aValue.IsType<String> then
Result := aValue.AsString = aParameters[0]
else if aValue.IsType<Int64> then
Result := aValue.AsInt64 = StrToInt(aParameters[0])
else if aValue.IsType<Integer> then
Result := aValue.AsInteger = StrToInt64(aParameters[0])
else if aValue.IsType<TDateTime> then
begin
lStrValue := DateTimeToStr(TDate(aValue.AsExtended), aLocaleFormatSettings);
Result := lStrValue = aParameters[0];
end
else
FunctionError('eq/ne', 'Unsupported param type for "' + String(aValue.TypeInfo.Name) + '"');
end;
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{ TParser }
procedure TTProCompiledTemplate.AddFilter(const FunctionName: string; const FunctionImpl: TTProTemplateFunction);
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begin
fTemplateFunctions.Add(FunctionName.ToLower, FunctionImpl);
end;
function TTProCompiledTemplate.GetDataSetFieldAsTValue(const aDataSet: TDataSet; const FieldName: String): TValue;
var
lField: TField;
begin
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lField := aDataSet.FindField(FieldName);
if not Assigned(lField) then
begin
Exit(TValue.Empty);
end;
case lField.DataType of
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ftInteger, ftSmallInt, ftWord:
Result := lField.AsInteger;
ftLargeint, ftAutoInc:
Result := lField.AsLargeInt;
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ftFloat:
Result := lField.AsFloat;
ftCurrency:
Result := lField.AsCurrency;
ftString, ftWideString, ftMemo, ftWideMemo:
Result := lField.AsWideString;
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ftDate:
Result := TDate(Trunc(lField.AsDateTime));
ftDateTime:
Result := lField.AsDateTime;
ftTime:
Result := lField.AsDateTime;
ftBoolean:
Result := lField.AsBoolean;
else
Error('Invalid data type for field "%s": %s',
[FieldName, TRttiEnumerationType.GetName<TFieldType>(lField.DataType)]);
end;
end;
function TTProCompiledTemplate.GetFormatSettings: PTProFormatSettings;
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begin
Result := @fLocaleFormatSettings;
end;
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function TTProCompiledTemplate.GetOnGetValue: TTProCompiledTemplateGetValueEvent;
begin
Result := fOnGetValue;
end;
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function TTProCompiledTemplate.GetPseudoVariable(const VarIterator: Integer; const PseudoVarName: String): TValue;
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begin
if PseudoVarName = '@@index' then
begin
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Result := VarIterator + 1;
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end
else if PseudoVarName = '@@odd' then
begin
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Result := (VarIterator + 1) mod 2 > 0;
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end
else if PseudoVarName = '@@even' then
begin
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Result := (VarIterator + 1) mod 2 = 0;
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end
else
begin
Result := TValue.Empty;
end;
end;
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function TTProCompiledTemplate.GetTValueVarAsString(const Value: TValue; const VarName: string): String;
var
lIsObject: Boolean;
lAsObject: TObject;
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lNullableInt32: NullableInt32;
lNullableUInt32: NullableUInt32;
lNullableInt16: NullableInt16;
lNullableUInt16: NullableUInt16;
lNullableInt64: NullableInt64;
lNullableUInt64: NullableUInt64;
lNullableCurrency: NullableCurrency;
lNullableBoolean: NullableBoolean;
lNullableTDate: NullableTDate;
lNullableTTime: NullableTTime;
lNullableTDateTime: NullableTDateTime;
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begin
if Value.IsEmpty then
begin
Exit('');
end;
lIsObject := False;
lAsObject := nil;
if Value.IsObject then
begin
lIsObject := True;
lAsObject := Value.AsObject;
end;
if lIsObject then
begin
if lAsObject is TField then
Result := TField(Value.AsObject).AsString
else if lAsObject is TJsonBaseObject then
Result := TJsonBaseObject(lAsObject).ToJSON()
else
Result := lAsObject.ToString;
end
else
begin
if Value.TypeInfo.Kind = tkRecord then
begin
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Result := '';
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if Value.TypeInfo = TypeInfo(NullableInt32) then
begin
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lNullableInt32 := Value.AsType<NullableInt32>;
if lNullableInt32.HasValue then
Result := lNullableInt32.Value.ToString
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end
else if Value.TypeInfo = TypeInfo(NullableUInt32) then
begin
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lNullableUInt32 := Value.AsType<NullableUInt32>;
if lNullableUInt32.HasValue then
Result := lNullableUInt32.Value.ToString
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end
else if Value.TypeInfo = TypeInfo(NullableInt16) then
begin
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lNullableInt16 := Value.AsType<NullableInt16>;
if lNullableInt16.HasValue then
Result := lNullableInt16.Value.ToString
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end
else if Value.TypeInfo = TypeInfo(NullableUInt16) then
begin
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lNullableUInt16 := Value.AsType<NullableUInt16>;
if lNullableUInt16.HasValue then
Result := lNullableUInt16.Value.ToString
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end
else if Value.TypeInfo = TypeInfo(NullableInt64) then
begin
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lNullableInt64 := Value.AsType<NullableInt64>;
if lNullableInt64.HasValue then
Result := lNullableInt64.Value.ToString
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end
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else if Value.TypeInfo = TypeInfo(NullableUInt64) then
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begin
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lNullableUInt64 := Value.AsType<NullableUInt64>;
if lNullableUInt64.HasValue then
Result := lNullableUInt64.Value.ToString
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end
else if Value.TypeInfo = TypeInfo(NullableString) then
begin
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Result := Value.AsType<NullableString>.ValueOrDefault;
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end
else if Value.TypeInfo = TypeInfo(NullableCurrency) then
begin
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lNullableCurrency := Value.AsType<NullableCurrency>;
if lNullableCurrency.HasValue then
Result := FloatToStr(lNullableCurrency.Value, fLocaleFormatSettings);
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end
else if Value.TypeInfo = TypeInfo(NullableBoolean) then
begin
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lNullableBoolean := Value.AsType<NullableBoolean>;
if lNullableBoolean.HasValue then
Result := BoolToStr(lNullableBoolean.Value, True);
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end
else if Value.TypeInfo = TypeInfo(NullableTDate) then
begin
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lNullableTDate := Value.AsType<NullableTDate>;
if lNullableTDate.HasValue then
Result := DateToISO8601(lNullableTDate.Value);
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end
else if Value.TypeInfo = TypeInfo(NullableTTime) then
begin
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lNullableTTime := Value.AsType<NullableTTime>;
if lNullableTTime.HasValue then
Result := DateToISO8601(lNullableTTime.Value);
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end
else if Value.TypeInfo = TypeInfo(NullableTDateTime) then
begin
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lNullableTDateTime := Value.AsType<NullableTDateTime>;
if lNullableTDateTime.HasValue then
Result := DateToISO8601(lNullableTDateTime.Value);
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end
else
begin
raise ETProException.Create('Unsupported type for variable "' + VarName + '"');
end;
end
else
begin
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case Value.Kind of
tkInteger: Result := Value.AsInteger.ToString;
tkInt64: Result := Value.AsInt64.ToString;
tkString, tkUString, tkWString, tkLString: Result := Value.AsString;
tkWChar, tkChar: Result := Value.AsType<Char>;
tkFloat: begin
if Value.TypeInfo.Name = 'TDate' then
begin
Result := DateToStr(Value.AsExtended, fLocaleFormatSettings);
end
else if Value.TypeInfo.Name = 'TDateTime' then
begin
Result := DateTimeToStr(Value.AsExtended, fLocaleFormatSettings);
end
else
begin
Result := FloatToStr(Value.AsExtended, fLocaleFormatSettings);
end;
end;
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tkEnumeration: Result := Value.ToString;
else
raise ETProException.Create('Unsupported type for variable "' + VarName + '"');
end;
//Result := Value.ToString;
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end;
end;
end;
procedure TTProCompiledTemplate.AddFilter(const FunctionName: string;
const AnonFunctionImpl: TTProTemplateAnonFunction);
begin
InitTemplateAnonFunctions;
fTemplateAnonFunctions.Add(FunctionName.ToLower, AnonFunctionImpl);
end;
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procedure TTProCompiledTemplate.CheckParNumber(const aMinParNumber, aMaxParNumber: Integer;
const aParameters: TArray<string>);
var
lParNumber: Integer;
begin
lParNumber := Length(aParameters);
if (lParNumber < aMinParNumber) or (lParNumber > aMaxParNumber) then
begin
if aMinParNumber = aMaxParNumber then
Error(Format('Expected %d parameters, got %d', [aMinParNumber, lParNumber]))
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else
Error(Format('Expected from %d to %d parameters, got %d', [aMinParNumber, aMaxParNumber, lParNumber]));
end;
end;
procedure TTProCompiler.InternalCompileIncludedTemplate(
const aTemplate: string;
const aTokens: TList<TToken>;
const aFileNameRefPath: String;
const aCompilerOptions: TTProCompilerOptions);
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var
lCompiler: TTProCompiler;
begin
lCompiler := TTProCompiler.Create(fEncoding, aCompilerOptions);
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try
lCompiler.Compile(aTemplate, aTokens, aFileNameRefPath);
if aTokens[aTokens.Count - 1].TokenType <> ttEOF then
begin
Error('Included file ' + aFileNameRefPath + ' doesn''t terminate with EOF');
end;
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aTokens.Delete(aTokens.Count - 1); // remove the EOF
finally
lCompiler.Free;
end;
end;
procedure TTProCompiler.InternalMatchFilter(lIdentifier: String; var lStartVerbatim: Int64;
const CurrToken: TTokenType; aTokens: TList<TToken>; const lRef2: Integer);
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var
lFilterName: string;
lFilterParamsCount: Integer;
lFilterParams: TArray<String>;
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I: Integer;
begin
lFilterName := '';
lFilterParamsCount := -1; { -1 means "no filter applied to value" }
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if MatchSymbol('|') then
begin
if not MatchVariable(lFilterName) then
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Error('Invalid function name applied to variable or literal string "' + lIdentifier + '"');
lFilterParams := GetFunctionParameters;
lFilterParamsCount := Length(lFilterParams);
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end;
if not MatchEndTag then
begin
Error('Expected end tag "' + END_TAG + '" near ' + GetSubsequentText);
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end;
lStartVerbatim := fCharIndex;
aTokens.Add(TToken.Create(CurrToken, lIdentifier, '', lFilterParamsCount, lRef2));
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// add function with params
if not lFilterName.IsEmpty then
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begin
aTokens.Add(TToken.Create(ttFilterName, lFilterName, '', lFilterParamsCount));
if lFilterParamsCount > 0 then
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begin
for I := 0 to lFilterParamsCount - 1 do
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begin
aTokens.Add(TToken.Create(ttFilterParameter, lFilterParams[I], ''));
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end;
end;
end;
end;
constructor TTProCompiler.Create(aEncoding: TEncoding = nil);
begin
if aEncoding = nil then
Create(TEncoding.UTF8, []) { default encoding }
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else
Create(aEncoding, []);
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end;
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procedure TTProCompiler.MatchFilter(lVarName: string; var lFuncName: string; var lFuncParamsCount: Integer; var lFuncParams: TArray<String>);
begin
MatchSpace;
if not MatchVariable(lFuncName) then
Error('Invalid function name applied to variable ' + lVarName);
MatchSpace;
lFuncParams := GetFunctionParameters;
lFuncParamsCount := Length(lFuncParams);
MatchSpace;
end;
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function TTProCompiler.CurrentChar: Char;
begin
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Result := fInputString.Chars[fCharIndex]
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end;
function TTProCompiler.MatchEndTag: Boolean;
begin
Result := MatchSymbol(END_TAG);
end;
function TTProCompiler.MatchVariable(var aIdentifier: string): Boolean;
var
lTmp: String;
begin
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aIdentifier := '';
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lTmp := '';
Result := False;
if CharInSet(fInputString.Chars[fCharIndex], IdenfierAllowedFirstChars) then
begin
lTmp := fInputString.Chars[fCharIndex];
Inc(fCharIndex);
if lTmp = '@' then
begin
if fInputString.Chars[fCharIndex] = '@' then
begin
lTmp := '@@';
Inc(fCharIndex);
end;
end;
while CharInSet(fInputString.Chars[fCharIndex], IdenfierAllowedChars) do
begin
lTmp := lTmp + fInputString.Chars[fCharIndex];
Inc(fCharIndex);
end;
Result := True;
aIdentifier := lTmp;
end;
if Result then
begin
while MatchSymbol('.') do
begin
lTmp := '';
if not MatchVariable(lTmp) then
begin
Error('Expected identifier after "' + aIdentifier + '" - got ' + GetSubsequentText);
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end;
aIdentifier := aIdentifier + '.' + lTmp;
end;
end;
end;
function TTProCompiler.MatchFilterParamValue(var aParamValue: string): Boolean;
var
lTmp: String;
begin
lTmp := '';
Result := False;
if MatchString(aParamValue) then
begin
Result := True;
end
else if CharInSet(fInputString.Chars[fCharIndex], SignAndNumbers) then
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begin
lTmp := fInputString.Chars[fCharIndex];
Inc(fCharIndex);
while CharInSet(fInputString.Chars[fCharIndex], Numbers) do
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begin
lTmp := lTmp + fInputString.Chars[fCharIndex];
Inc(fCharIndex);
end;
Result := True;
aParamValue := lTmp.Trim;
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end;
// if CharInSet(fInputString.Chars[fCharIndex], IdenfierAllowedChars) then
// begin
// while CharInSet(fInputString.Chars[fCharIndex], ValueAllowedChars) do
// begin
// lTmp := lTmp + fInputString.Chars[fCharIndex];
// Inc(fCharIndex);
// end;
// Result := True;
// aParamValue := lTmp.Trim;
// end;
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end;
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function TTProCompiler.MatchSpace: Boolean;
begin
Result := MatchSymbol(' ');
while MatchSymbol(' ') do;
end;
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function TTProCompiler.MatchStartTag: Boolean;
begin
Result := MatchSymbol(START_TAG);
end;
function TTProCompiler.MatchString(out aStringValue: String): Boolean;
begin
aStringValue := '';
Result := MatchSymbol('"');
if Result then
begin
while not MatchSymbol('"') do // no escape so far
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begin
if CurrentChar = #0 then
begin
Error('Unclosed string at the end of file');
end;
aStringValue := aStringValue + CurrentChar;
Step;
end;
end;
end;
function TTProCompiler.MatchSymbol(const aSymbol: string): Boolean;
var
lSymbolIndex: Integer;
lSavedCharIndex: Int64;
lSymbolLength: Integer;
begin
if aSymbol.IsEmpty then
Exit(True);
lSavedCharIndex := fCharIndex;
lSymbolIndex := 0;
lSymbolLength := Length(aSymbol);
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while (fInputString.Chars[fCharIndex].ToLower = aSymbol.Chars[lSymbolIndex].ToLower) and (lSymbolIndex < lSymbolLength) do
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begin
Inc(fCharIndex);
Inc(lSymbolIndex);
end;
Result := (lSymbolIndex > 0) and (lSymbolIndex = lSymbolLength);
if not Result then
fCharIndex := lSavedCharIndex;
end;
function TTProCompiler.Step: Char;
begin
Inc(fCharIndex);
Result := CurrentChar;
end;
function TTProCompiler.Compile(const aTemplate: string; const aFileNameRefPath: String): ITProCompiledTemplate;
var
lTokens: TList<TToken>;
lFileNameRefPath: string;
begin
if aFileNameRefPath.IsEmpty then
begin
lFileNameRefPath := TPath.Combine(TPath.GetDirectoryName(GetModuleName(HInstance)), 'main.template');
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end
else
begin
lFileNameRefPath := TPath.GetFullPath(aFileNameRefPath);
end;
fCurrentFileName := lFileNameRefPath;
lTokens := TList<TToken>.Create;
try
Compile(aTemplate, lTokens, fCurrentFileName);
ProcessJumps(lTokens);
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Result := TTProCompiledTemplate.Create(lTokens);
except
lTokens.Free;
raise;
end;
end;
constructor TTProCompiler.Create(const aEncoding: TEncoding; const aOptions: TTProCompilerOptions);
begin
inherited Create;
fEncoding := aEncoding;
fOptions := aOptions;
end;
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procedure TTProCompiler.Compile(const aTemplate: string; const aTokens: TList<TToken>; const aFileNameRefPath: String);
var
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lForStatementCount: Integer;
lIfStatementCount: Integer;
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lLastToken: TTokenType;
lChar: Char;
lVarName: string;
lFuncName: string;
lIdentifier: string;
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lIteratorName: string;
lStartVerbatim: Int64;
lEndVerbatim: Int64;
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lNegation: Boolean;
lFuncParams: TArray<String>;
lFuncParamsCount: Integer;
I: Integer;
lTemplateSource: string;
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lCurrentFileName: string;
lStringValue: string;
lRef2: Integer;
lContentOnThisLine: Integer;
lStrVerbatim: string;
lLayoutFound: Boolean;
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lFoundVar: Boolean;
lFoundFilter: Boolean;
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begin
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aTokens.Add(TToken.Create(ttSystemVersion, TEMPLATEPRO_VERSION, ''));
lLastToken := ttEOF;
lLayoutFound := False;
lContentOnThisLine := 0;
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fCurrentFileName := aFileNameRefPath;
fCharIndex := -1;
fCurrentLine := 1;
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lIfStatementCount := -1;
lForStatementCount := -1;
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fInputString := aTemplate;
lStartVerbatim := 0;
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if fInputString.Length > 0 then
begin
Step;
end
else
begin
aTokens.Add(TToken.Create(ttEOF, '', ''));
fCharIndex := 1; { doesnt' execute while }
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end;
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while fCharIndex <= fInputString.Length do
begin
lChar := CurrentChar;
if lChar = #0 then // eof
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begin
lEndVerbatim := fCharIndex;
if lEndVerbatim - lStartVerbatim > 0 then
begin
lLastToken := ttContent;
aTokens.Add(TToken.Create(lLastToken, fInputString.Substring(lStartVerbatim,
lEndVerbatim - lStartVerbatim), ''));
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end;
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aTokens.Add(TToken.Create(ttEOF, '', ''));
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Break;
end;
if MatchSymbol(sLineBreak) then { linebreak }
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begin
lEndVerbatim := fCharIndex - Length(sLineBreak);
if lEndVerbatim - lStartVerbatim > 0 then
begin
Inc(lContentOnThisLine);
lStrVerbatim := fInputString.Substring(lStartVerbatim, lEndVerbatim - lStartVerbatim);
aTokens.Add(TToken.Create(ttContent, lStrVerbatim, ''));
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end;
lStartVerbatim := fCharIndex;
if lLastToken = ttLineBreak then
Inc(lContentOnThisLine);
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lLastToken := ttLineBreak;
if lContentOnThisLine > 0 then
begin
aTokens.Add(TToken.Create(lLastToken, '', ''));
end;
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Inc(fCurrentLine);
lContentOnThisLine := 0;
end
else if MatchStartTag then { starttag }
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begin
lEndVerbatim := fCharIndex - Length(START_TAG);
if lEndVerbatim - lStartVerbatim > 0 then
begin
lLastToken := ttContent;
aTokens.Add(TToken.Create(lLastToken, fInputString.Substring(lStartVerbatim,
lEndVerbatim - lStartVerbatim), ''));
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end;
if CurrentChar = START_TAG[1] then
begin
lLastToken := ttContent;
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aTokens.Add(TToken.Create(lLastToken, START_TAG, ''));
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Inc(fCharIndex);
lStartVerbatim := fCharIndex;
Continue;
end;
if CurrentChar = ':' then // variable
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begin
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lFoundVar := False;
lFoundFilter := False;
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Step;
lRef2 := -1;
if MatchVariable(lVarName) then { variable }
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begin
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lFoundVar := True;
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if lVarName.IsEmpty then
Error('Invalid variable name');
lFuncName := '';
lFuncParamsCount := -1; { -1 means "no filter applied to value" }
lRef2 := IfThen(MatchSymbol('$'), 1, -1); // {{value$}} means no escaping
MatchSpace;
end;
if MatchSymbol('|') then
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begin
lFoundFilter := True;
MatchFilter(lVarName, lFuncName, lFuncParamsCount, lFuncParams);
end;
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if lFoundVar or lFoundFilter then
begin
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if not MatchEndTag then
begin
Error('Expected end tag "' + END_TAG + '" near ' + GetSubsequentText);
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end;
lStartVerbatim := fCharIndex;
lLastToken := ttValue;
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aTokens.Add(TToken.Create(lLastToken, lVarName, '', lFuncParamsCount, lRef2));
Inc(lContentOnThisLine);
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// add function with params
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if not lFuncName.IsEmpty then
begin
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aTokens.Add(TToken.Create(ttFilterName, lFuncName, '', lFuncParamsCount));
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if lFuncParamsCount > 0 then
begin
for I := 0 to lFuncParamsCount - 1 do
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begin
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aTokens.Add(TToken.Create(ttFilterParameter, lFuncParams[I], ''));
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end;
end;
end;
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end
else
begin
Error('Expected variable or filter near ' + GetSubsequentText);
end;
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end
else
begin
if MatchSymbol('for') then { loop }
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begin
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if not MatchSpace then
Error('Expected "space"');
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if not MatchVariable(lIteratorName) then
Error('Expected iterator name after "for" - EXAMPLE: for iterator in iterable');
if not MatchSpace then
Error('Expected "space"');
if not MatchSymbol('in') then
Error('Expected "in" after "for" iterator');
if not MatchSpace then
Error('Expected "space"');
if not MatchVariable(lIdentifier) then
Error('Expected iterable "for"');
MatchSpace;
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if not MatchEndTag then
Error('Expected closing tag for "for"');
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// create another element in the sections stack
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Inc(lForStatementCount);
lLastToken := ttFor;
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if lIdentifier = lIteratorName then
begin
Error('loop data source and its iterator cannot have the same name: ' + lIdentifier)
end;
aTokens.Add(TToken.Create(lLastToken, lIdentifier, lIteratorName));
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lStartVerbatim := fCharIndex;
end
else if MatchSymbol('endfor') then { endfor }
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begin
if not MatchEndTag then
Error('Expected closing tag');
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if lForStatementCount = -1 then
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begin
Error('endfor without loop');
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end;
lLastToken := ttEndFor;
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aTokens.Add(TToken.Create(lLastToken, '', ''));
Dec(lForStatementCount);
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lStartVerbatim := fCharIndex;
end
else if MatchSymbol('continue') then { continue }
begin
lLastToken := ttContinue;
aTokens.Add(TToken.Create(lLastToken, '', ''));
end
else if MatchSymbol('endif') then { endif }
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begin
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if lIfStatementCount = -1 then
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begin
Error('"endif" without "if"');
end;
if not MatchEndTag then
begin
Error('Expected closing tag for "endif"');
end;
lLastToken := ttEndIf;
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aTokens.Add(TToken.Create(lLastToken, '', ''));
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Dec(lIfStatementCount);
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lStartVerbatim := fCharIndex;
end
else if MatchSymbol('if') then
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begin
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if not MatchSpace then
begin
Error('Expected <space> after "if"');
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end;
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lNegation := MatchSymbol('!');
MatchSpace;
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if not MatchVariable(lIdentifier) then
Error('Expected identifier after "if"');
lFuncParamsCount := -1;
{ lFuncParamsCount = -1 means "no filter applied" }
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lFuncName := '';
if MatchSymbol('|') then
begin
MatchSpace;
if not MatchVariable(lFuncName) then
Error('Invalid function name applied to variable ' + lVarName);
lFuncParams := GetFunctionParameters;
lFuncParamsCount := Length(lFuncParams);
end;
MatchSpace;
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if not MatchEndTag then
Error('Expected closing tag for "if"');
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if lNegation then
begin
lIdentifier := '!' + lIdentifier;
end;
lLastToken := ttIfThen;
aTokens.Add(TToken.Create(lLastToken, '' { lIdentifier } , ''));
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Inc(lIfStatementCount);
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lStartVerbatim := fCharIndex;
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lLastToken := ttBoolExpression;
aTokens.Add(TToken.Create(lLastToken, lIdentifier, '', lFuncParamsCount, -1 { no html escape } ));
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// add function with params
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if not lFuncName.IsEmpty then
begin
aTokens.Add(TToken.Create(ttFilterName, lFuncName, '', lFuncParamsCount));
if lFuncParamsCount > 0 then
begin
for I := 0 to lFuncParamsCount - 1 do
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begin
aTokens.Add(TToken.Create(ttFilterParameter, lFuncParams[I], ''));
end;
end;
end;
end
else if MatchSymbol('else') then
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begin
if not MatchEndTag then
Error('Expected closing tag for "else"');
lLastToken := ttElse;
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aTokens.Add(TToken.Create(lLastToken, '', ''));
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lStartVerbatim := fCharIndex;
end
else if MatchSymbol('include') then { include }
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begin
if not MatchSpace then
Error('Expected "space" after "include"');
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{ In a future version we could implement a function call }
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if not MatchString(lStringValue) then
begin
Error('Expected string after "include"');
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end;
MatchSpace;
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if not MatchEndTag then
Error('Expected closing tag for "include"');
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// create another element in the sections stack
try
if TDirectory.Exists(aFileNameRefPath) then
begin
lCurrentFileName := TPath.GetFullPath(TPath.Combine(aFileNameRefPath, lStringValue));
end
else
begin
lCurrentFileName := TPath.GetFullPath(TPath.Combine(TPath.GetDirectoryName(aFileNameRefPath),
lStringValue));
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end;
lTemplateSource := TFile.ReadAllText(lCurrentFileName, fEncoding);
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except
on E: Exception do
begin
Error('Cannot read "' + lStringValue + '"');
end;
end;
Inc(lContentOnThisLine);
InternalCompileIncludedTemplate(lTemplateSource, aTokens, lCurrentFileName, [coIgnoreSysVersion, coParentTemplate]);
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lStartVerbatim := fCharIndex;
end
else if MatchSymbol('extends') then { extends }
begin
if lLayoutFound then
Error('Duplicated "extends"');
lLayoutFound := True;
if coParentTemplate in fOptions then
Error('A parent page cannot extends another page');
if not MatchSpace then
Error('Expected "space" after "extends"');
if not MatchString(lStringValue) then
begin
Error('Expected string after "extends"');
end;
MatchSpace;
if not MatchEndTag then
Error('Expected closing tag for "extends"');
try
if TDirectory.Exists(aFileNameRefPath) then
begin
lCurrentFileName := TPath.GetFullPath(TPath.Combine(aFileNameRefPath, lStringValue));
end
else
begin
lCurrentFileName := TPath.GetFullPath(TPath.Combine(TPath.GetDirectoryName(aFileNameRefPath),
lStringValue));
end;
lTemplateSource := TFile.ReadAllText(lCurrentFileName, fEncoding);
except
on E: Exception do
begin
Error('Cannot read "' + lStringValue + '"');
end;
end;
Inc(lContentOnThisLine);
aTokens.Add(TToken.Create(ttInfo, STR_BEGIN_OF_LAYOUT, ''));
InternalCompileIncludedTemplate(
lTemplateSource,
aTokens,
lCurrentFileName, [coParentTemplate, coIgnoreSysVersion]);
aTokens.Add(TToken.Create(ttInfo, STR_END_OF_LAYOUT, ''));
lStartVerbatim := fCharIndex;
end
else if MatchSymbol('block') then { block - parent }
begin
if not MatchSpace then
Error('Expected "space" after "block"');
if not MatchString(lStringValue) then
Error('Expected string after "block"');
MatchSpace;
if not MatchEndTag then
Error('Expected closing tag for "block"');
lLastToken := ttBlock;
aTokens.Add(TToken.Create(lLastToken, lStringValue, ''));
lStartVerbatim := fCharIndex;
end
else if MatchSymbol('endblock') then { endblock - parent }
begin
MatchSpace;
if not MatchEndTag then
Error('Expected closing tag for "endblock"');
lLastToken := ttEndBlock;
aTokens.Add(TToken.Create(lLastToken, '', ''));
lStartVerbatim := fCharIndex;
end
else if MatchSymbol('exit') then { exit }
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begin
lLastToken := ttExit;
aTokens.Add(TToken.Create(lLastToken, '', ''));
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lLastToken := ttEOF;
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aTokens.Add(TToken.Create(lLastToken, '', ''));
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Break;
end
else if MatchString(lStringValue) then { string }
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begin
lLastToken := ttLiteralString;
Inc(lContentOnThisLine);
lRef2 := IfThen(MatchSymbol('$'), 1, -1);
// {{value$}} means no escaping
MatchSpace;
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InternalMatchFilter(lStringValue, lStartVerbatim, ttLiteralString, aTokens, lRef2);
end
else if MatchSymbol('#') then
begin
while not MatchEndTag do
begin
Step;
end;
lStartVerbatim := fCharIndex;
lLastToken := ttComment; { will not added into compiled template }
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end
else
begin
lIdentifier := GetSubsequentText;
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Error('Expected command, got "' + lIdentifier + '"');
end;
end;
end
else
begin
Step;
end;
end;
end;
function CapitalizeString(const s: string; const CapitalizeFirst: Boolean): string;
const
ALLOWEDCHARS = ['a' .. 'z', '_'];
var
index: Integer;
bCapitalizeNext: Boolean;
begin
bCapitalizeNext := CapitalizeFirst;
Result := lowercase(s);
if Result <> EmptyStr then
begin
for index := 1 to Length(Result) do
begin
if bCapitalizeNext then
begin
Result[index] := UpCase(Result[index]);
bCapitalizeNext := False;
end
else if not CharInSet(Result[index], ALLOWEDCHARS) then
begin
bCapitalizeNext := True;
end;
end; // for
end; // if
end;
procedure TTProCompiler.Error(const aMessage: string);
begin
raise ETProCompilerException.CreateFmt('%s - at line %d in file %s', [aMessage, fCurrentLine, fCurrentFileName]);
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end;
procedure TTProCompiler.ProcessJumps(const aTokens: TList<TToken>);
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var
lForInStack: TStack<Int64>;
lContinueStack: TStack<Int64>;
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lIfStatementStack: TStack<TIfThenElseIndex>;
I: Int64;
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lToken: TToken;
lForAddress: Int64;
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lIfStackItem: TIfThenElseIndex;
lCheckForUnbalancedPair: Boolean;
lTmpContinueAddress: Int64;
lBlockDict: TDictionary<string, TBlockAddress>;
lBlockAddress: TBlockAddress;
lWithinBlock: Boolean;
lWithinBlockName: string;
lTemplateSectionType: TTProTemplateSectionType;
lErrorMessage: String;
begin
lWithinBlock := False;
lTemplateSectionType := stUnknown;
lCheckForUnbalancedPair := True;
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lBlockDict := TDictionary<string, TBlockAddress>.Create(TTProEqualityComparer.Create);
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try
lForInStack := TStack<Int64>.Create;
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try
lContinueStack := TStack<Int64>.Create;
try
lIfStatementStack := TStack<TIfThenElseIndex>.Create;
try
for I := 0 to aTokens.Count - 1 do
begin
case aTokens[I].TokenType of
ttInfo:
begin
if not HandleTemplateSectionStateMachine(aTokens[I].Value1, lTemplateSectionType, lErrorMessage) then
Error(lErrorMessage)
end;
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ttFor:
begin
if lContinueStack.Count > 0 then
begin
Error('Continue stack corrupted');
end;
lForInStack.Push(I);
end;
ttEndFor:
begin
{ ttFor.Ref1 --> endfor }
lForAddress := lForInStack.Pop;
lToken := aTokens[lForAddress];
lToken.Ref1 := I;
aTokens[lForAddress] := lToken;
{ ttEndFor.Ref1 --> for }
lToken := aTokens[I];
lToken.Ref1 := lForAddress;
aTokens[I] := lToken;
{ if there's a ttContinue (or more than one), it must jump to endfor }
while lContinueStack.Count > 0 do
begin
lTmpContinueAddress := lContinueStack.Pop;
lToken := aTokens[lTmpContinueAddress];
lToken.Ref1 := I;
aTokens[lTmpContinueAddress] := lToken;
end;
end;
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ttContinue:
begin
lContinueStack.Push(I);
end;
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ttBlock:
begin
if lWithinBlock then
begin
Error('Block cannot be nested - nested block name is ' + aTokens[I].Value1);
end;
lToken := aTokens[I];
lWithinBlock := True;
lWithinBlockName := lToken.Value1;
if lBlockDict.TryGetValue(lWithinBlockName, lBlockAddress) then
begin
if lTemplateSectionType = stPage then
begin
// this block is overwriting that from layout
// so I've to put ttBlock.Ref1 to the current block begin
// ttBlock.Ref1 -> where to jump
// ttBlock.Ref2 -> where to return after jump (should be already there)
lToken := aTokens[lBlockAddress.BeginBlockAddress];
lToken.Ref1 := I; // current block address
aTokens[lBlockAddress.BeginBlockAddress] := lToken;
end
else if lTemplateSectionType = stLayout then
Error('Duplicated layout block: ' + lWithinBlockName)
else
Error('Unexpected ttBlock in stUnknown state');
end
else
begin
if lTemplateSectionType = stLayout then
begin
// this block is defining a placeholder for future blocks
// so I've to save the current address in BlockDict
lBlockDict.Add(lWithinBlockName, TBlockAddress.Create(I, 0));
end
else if lTemplateSectionType = stPage then
begin
//Error('Block "' + lWithinBlockName + '" doesn''t exist in current layout page')
//do nothing - a page can define a block which is not available in the parent page
//that's correct... the block will be just (compiled but) ignored
end
else
Error('Unexpected ttBlock in stUnknown state');
end;
end;
ttEndBlock:
begin
if not lWithinBlock then
begin
Error('endblock without block');
end;
if lBlockDict.TryGetValue(lWithinBlockName, lBlockAddress) then
begin
if lTemplateSectionType = stPage then
begin
//do nothing
// // this block is overwriting the one from layout page
// // block.ref1 --> when overwritten points to the actual block to execute,
// // block.ref2 --> current end block (in case of overwritten block, ref2 is the return address)
// lToken := aTokens[lBlockAddress.BeginBlockAddress]; { block from layout page }
// // this block has not been overwritten (yet) just continue
// // but the beginblock must know where its endblock is
// // the relative endblock is at ttBlock.Ref2
// lToken.Ref1 := I;
// aTokens[lBlockAddress.BeginBlockAddress] := lToken;
end else if lTemplateSectionType = stLayout then
begin
//just set ttBlock.Ref2 to the current address (which is its endblock)
lToken := aTokens[lBlockAddress.BeginBlockAddress]; { block from layout page }
lToken.Ref2 := I;
aTokens[lBlockAddress.BeginBlockAddress] := lToken;
end;
end
else
begin
//if a block doesn't exist in parent but in child
//it's ok, but will be just ignored
end;
lWithinBlock := False;
lWithinBlockName := '';
end;
{ ttIfThen.Ref1 points always to relative else (if present otherwise -1) }
{ ttIfThen.Ref2 points always to relative endif }
ttIfThen:
begin
lIfStackItem.IfIndex := I;
lIfStackItem.ElseIndex := -1;
{ -1 means: "there isn't ttElse" }
lIfStatementStack.Push(lIfStackItem);
end;
ttElse:
begin
lIfStackItem := lIfStatementStack.Pop;
lIfStackItem.ElseIndex := I;
lIfStatementStack.Push(lIfStackItem);
end;
ttEndIf:
begin
lIfStackItem := lIfStatementStack.Pop;
{ fixup ifthen }
lToken := aTokens[lIfStackItem.IfIndex];
lToken.Ref2 := I;
{ ttIfThen.Ref2 points always to relative endif }
lToken.Ref1 := lIfStackItem.ElseIndex;
{ ttIfThen.Ref1 points always to relative else (if present, otherwise -1) }
aTokens[lIfStackItem.IfIndex] := lToken;
{ fixup else }
if lIfStackItem.ElseIndex > -1 then
begin
lToken := aTokens[lIfStackItem.ElseIndex];
lToken.Ref2 := I;
{ ttElse.Ref2 points always to relative endif }
aTokens[lIfStackItem.ElseIndex] := lToken;
end;
end;
ttExit:
begin
lCheckForUnbalancedPair := False;
end;
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end;
end; // for
if lCheckForUnbalancedPair and (lIfStatementStack.Count > 0) then
begin
Error('Unbalanced "if" - expected "endif"');
end;
if lCheckForUnbalancedPair and (lForInStack.Count > 0) then
begin
Error('Unbalanced "for" - expected "endfor"');
end;
finally
lIfStatementStack.Free;
end;
finally
lContinueStack.Free;
end;
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finally
lForInStack.Free;
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end;
finally
lBlockDict.Free;
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end;
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//TTProCompiledTemplate.InternalDumpToFile('debug.compiled.txt', aTokens);
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end;
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function TTProCompiler.GetFunctionParameters: TArray<String>;
var
lFuncPar: string;
begin
Result := [];
while MatchSymbol(',') do
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begin
lFuncPar := '';
MatchSpace;
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if not MatchFilterParamValue(lFuncPar) then
Error('Expected function parameter');
Result := Result + [lFuncPar];
MatchSpace;
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end;
end;
function TTProCompiler.GetSubsequentText: String;
var
I: Integer;
begin
Result := CurrentChar;
Step;
I := 0;
while (CurrentChar <> #0) and (CurrentChar <> END_TAG[1]) and (I < 20) do
begin
Result := Result + CurrentChar;
Step;
Inc(I);
end;
Result := Result.QuotedString('"');
end;
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procedure TTProCompiledTemplate.CheckParNumber(const aHowManyPars: Integer; const aParameters: TArray<string>);
begin
CheckParNumber(aHowManyPars, aHowManyPars, aParameters);
end;
function TTProCompiledTemplate.ExecuteFilter(aFunctionName: string; aParameters: TArray<string>;
aValue: TValue; const aVarNameWhereShoudBeApplied: String): TValue;
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var
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lDateValue: TDateTime;
lDateFilterFormatSetting: TFormatSettings;
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lStrValue: string;
lFunc: TTProTemplateFunction;
lAnonFunc: TTProTemplateAnonFunction;
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lIntegerPar1: Integer;
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lDecimalMask: string;
lExecuteAsFilterOnAValue: Boolean;
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begin
lExecuteAsFilterOnAValue := not aVarNameWhereShoudBeApplied.IsEmpty;
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aFunctionName := lowercase(aFunctionName);
if SameText(aFunctionName, 'gt') then
begin
Result := _Comparand(ctGT, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'ge') then
begin
Result := _Comparand(ctGE, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'lt') then
begin
Result := _Comparand(ctLT, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'le') then
begin
Result := _Comparand(ctLE, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'eq') then
begin
Result := _Comparand(ctEQ, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'ne') then
begin
Result := _Comparand(ctNE, aValue, aParameters, fLocaleFormatSettings);
end
else if SameText(aFunctionName, 'contains') then
begin
if Length(aParameters) <> 1 then
FunctionError(aFunctionName, 'expected 1 parameter');
Result := aValue.AsString.Contains(aParameters[0]);
end
else if SameText(aFunctionName, 'contains_ignore_case') then
begin
if Length(aParameters) <> 1 then
FunctionError(aFunctionName, 'expected 1 parameter');
Result := aValue.AsString.ToLowerInvariant.Contains(aParameters[0].ToLowerInvariant);
end
else if SameText(aFunctionName, 'uppercase') then
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begin
if lExecuteAsFilterOnAValue then
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begin
CheckParNumber(0, aParameters);
Result := UpperCase(aValue.AsString);
end
else
begin
CheckParNumber(1, aParameters);
Result := UpperCase(aParameters[0]);
end;
end
else if SameText(aFunctionName, 'lowercase') then
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begin
if lExecuteAsFilterOnAValue then
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begin
CheckParNumber(0, aParameters);
Result := lowercase(aValue.AsString);
end
else
begin
CheckParNumber(1, aParameters);
Result := lowercase(aParameters[0]);
end;
end
else if SameText(aFunctionName, 'capitalize') then
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begin
if lExecuteAsFilterOnAValue then
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begin
CheckParNumber(0, aParameters);
Result := CapitalizeString(aValue.AsString, True);
end
else
begin
CheckParNumber(1, aParameters);
Result := CapitalizeString(aParameters[0], True);
end;
end
else if SameText(aFunctionName, 'trunc') then
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begin
CheckParNumber(1, 1, aParameters);
lStrValue := aValue.AsString.TrimRight;
lIntegerPar1 := aParameters[0].ToInteger;
if Length(lStrValue) > lIntegerPar1 then
begin
Result := lStrValue.Substring(0, aParameters[0].ToInteger) + '...';
end
else
begin
Result := lStrValue;
end;
end
else if SameText(aFunctionName, 'rpad') then
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begin
if aValue.IsType<Integer> then
lStrValue := aValue.AsInteger.ToString
else if aValue.IsType<string> then
lStrValue := aValue.AsString
else
FunctionError(aFunctionName, 'Invalid parameter/s');
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CheckParNumber(1, 2, aParameters);
if Length(aParameters) = 1 then
begin
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Result := lStrValue.PadRight(aParameters[0].ToInteger);
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end
else
begin
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Result := lStrValue.PadRight(aParameters[0].ToInteger, aParameters[1].Chars[0]);
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end;
end
else if SameText(aFunctionName, 'lpad') then
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begin
if aValue.IsType<Integer> then
lStrValue := aValue.AsInteger.ToString
else if aValue.IsType<string> then
lStrValue := aValue.AsString
else
FunctionError(aFunctionName, 'Invalid parameter/s');
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CheckParNumber(1, 2, aParameters);
if Length(aParameters) = 1 then
begin
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Result := lStrValue.PadLeft(aParameters[0].ToInteger);
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end
else
begin
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Result := lStrValue.PadLeft(aParameters[0].ToInteger, aParameters[1].Chars[0]);
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end;
end
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else if SameText(aFunctionName, 'round') then
begin
CheckParNumber(1, aParameters);
lDecimalMask := '';
if aParameters[0].ToInteger < 0 then
begin
lDecimalMask := '.' + StringOfChar('0', Abs(aParameters[0].ToInteger));
end;
Result := FormatFloat('0' + lDecimalMask, RoundTo(aValue.AsExtended, aParameters[0].ToInteger));
end
else if SameText(aFunctionName, 'datetostr') then
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begin
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if aValue.IsEmpty then
begin
Result := '';
end
else if aValue.TryAsType<TDateTime>(lDateValue) then
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begin
if Length(aParameters) = 0 then
begin
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Result := DateToStr(lDateValue, fLocaleFormatSettings)
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end
else
begin
CheckParNumber(1, aParameters);
lDateFilterFormatSetting.ShortDateFormat := aParameters[0];
Result := DateToStr(lDateValue, lDateFilterFormatSetting)
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end;
end
else
begin
FunctionError(aFunctionName, 'Invalid date ' + aValue.AsString.QuotedString);
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end;
end
else if SameText(aFunctionName, 'datetimetostr') or SameText(aFunctionName, 'formatdatetime') then
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begin
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if aValue.IsEmpty then
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begin
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Result := '';
end
else if aValue.TryAsType<TDateTime>(lDateValue) then
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begin
if Length(aParameters) = 0 then
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Result := DateTimeToStr(lDateValue, fLocaleFormatSettings)
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else
begin
CheckParNumber(1, aParameters);
Result := FormatDateTime(aParameters[0], lDateValue);
end;
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end
else
begin
FunctionError(aFunctionName, 'Invalid datetime ' + aValue.AsString.QuotedString);
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end;
end
else if SameText(aFunctionName, 'totrue') then
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begin
CheckParNumber(0, aParameters);
Result := true;
end
else if SameText(aFunctionName, 'tofalse') then
begin
CheckParNumber(0, aParameters);
Result := false;
end
else if SameText(aFunctionName, 'version') then
begin
if lExecuteAsFilterOnAValue then
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begin
FunctionError(aFunctionName, 'cannot be applied to a value - [HINT] Use {{:|' + aFunctionName + '}}');
end;
CheckParNumber(0, aParameters);
Result := TEMPLATEPRO_VERSION;
end
else if fTemplateFunctions.TryGetValue(aFunctionName, lFunc) then
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begin
Result := lFunc(aValue, aParameters);
end
else if (fTemplateAnonFunctions <> nil) and fTemplateAnonFunctions.TryGetValue(aFunctionName, lAnonFunc) then
begin
Result := lAnonFunc(aValue, aParameters);
end
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else
begin
Error(Format('Unknown function [%s]', [aFunctionName]));
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end;
end;
function HTMLEncode(s: string): string;
var
I: Integer;
r: string;
b: byte;
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begin
I := 1;
while I <= Length(s) do
begin
r := '';
b := ord(s[I]);
case b of
ord('>'):
r := 'gt';
ord('<'):
r := 'lt';
34:
r := '#' + IntToStr(b);
39:
r := '#' + IntToStr(b);
43:
r := 'quot';
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160:
r := 'nbsp';
161:
r := 'excl';
162:
r := 'cent';
163:
r := 'ound';
164:
r := 'curren';
165:
r := 'yen';
166:
r := 'brvbar';
167:
r := 'sect';
168:
r := 'uml';
169:
r := 'copy';
170:
r := 'ordf';
171:
r := 'laquo';
172:
r := 'not';
173:
r := 'shy';
174:
r := 'reg';
175:
r := 'macr';
176:
r := 'deg';
177:
r := 'plusmn';
178:
r := 'sup2';
179:
r := 'sup3';
180:
r := 'acute';
181:
r := 'micro';
182:
r := 'para';
183:
r := 'middot';
184:
r := 'cedil';
185:
r := 'sup1';
186:
r := 'ordm';
187:
r := 'raquo';
188:
r := 'frac14';
189:
r := 'frac12';
190:
r := 'frac34';
191:
r := 'iquest';
192:
r := 'Agrave';
193:
r := 'Aacute';
194:
r := 'Acirc';
195:
r := 'Atilde';
196:
r := 'Auml';
197:
r := 'Aring';
198:
r := 'AElig';
199:
r := 'Ccedil';
200:
r := 'Egrave';
201:
r := 'Eacute';
202:
r := 'Ecirc';
203:
r := 'Euml';
204:
r := 'Igrave';
205:
r := 'Iacute';
206:
r := 'Icirc';
207:
r := 'Iuml';
208:
r := 'ETH';
209:
r := 'Ntilde';
210:
r := 'Ograve';
211:
r := 'Oacute';
212:
r := 'Ocirc';
213:
r := 'Otilde';
214:
r := 'Ouml';
215:
r := 'times';
216:
r := 'Oslash';
217:
r := 'Ugrave';
218:
r := 'Uacute';
219:
r := 'Ucirc';
220:
r := 'Uuml';
221:
r := 'Yacute';
222:
r := 'THORN';
223:
r := 'szlig';
224:
r := 'agrave';
225:
r := 'aacute';
226:
r := 'acirc';
227:
r := 'atilde';
228:
r := 'auml';
229:
r := 'aring';
230:
r := 'aelig';
231:
r := 'ccedil';
232:
r := 'egrave';
233:
r := 'eacute';
234:
r := 'ecirc';
235:
r := 'euml';
236:
r := 'igrave';
237:
r := 'iacute';
238:
r := 'icirc';
239:
r := 'iuml';
240:
r := 'eth';
241:
r := 'ntilde';
242:
r := 'ograve';
243:
r := 'oacute';
244:
r := 'ocirc';
245:
r := 'otilde';
246:
r := 'ouml';
247:
r := 'divide';
248:
r := 'oslash';
249:
r := 'ugrave';
250:
r := 'uacute';
251:
r := 'ucirc';
252:
r := 'uuml';
253:
r := 'yacute';
254:
r := 'thorn';
255:
r := 'yuml';
end;
if r <> '' then
begin
s := s.Replace(s[I], '&' + r + ';', []);
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Inc(I, Length(r) + 1);
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end;
Inc(I)
end;
Result := s;
end;
{ TToken }
class function TToken.Create(TokType: TTokenType; Value1, Value2: String; Ref1: Int64; Ref2: Int64): TToken;
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begin
Result.TokenType := TokType;
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Result.Value1 := Value1;
Result.Value2 := Value2;
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Result.Ref1 := Ref1;
Result.Ref2 := Ref2;
end;
class function TToken.CreateFromBytes(const aBytes: TBinaryReader): TToken;
var
// lSize: UInt32;
lValue1Size: UInt32;
lValue2Size: UInt32;
lTokenAsByte: Byte;
begin
{
STORAGE FORMAT
Bytes
0: Total record size as UInt32
1: Token Type as Byte
2: Value1 Size in bytes as UInt32
3: Value1 bytes
4: Value2 Size in bytes as UInt32
5: Value2 bytes
6: Ref1 (8 bytes) in bytes - Int64
7: Ref1 (8 bytes) in bytes - Int64
}
// lSize := aBytes.ReadUInt32;
lTokenAsByte := aBytes.ReadByte;
Result.TokenType := TTokenType(lTokenAsByte);
lValue1Size := aBytes.ReadUInt32;
Result.Value1 := TEncoding.Unicode.GetString(aBytes.ReadBytes(lValue1Size));
lValue2Size := aBytes.ReadUInt32;
Result.Value2 := TEncoding.Unicode.GetString(aBytes.ReadBytes(lValue2Size));
Result.Ref1 := aBytes.ReadInt64;
Result.Ref2 := aBytes.ReadInt64;
end;
procedure TToken.SaveToBytes(const aBytes: TBinaryWriter);
var
// lSize: UInt32;
lValue1Bytes: TArray<Byte>;
lValue2Bytes: TArray<Byte>;
lValue1Length: UInt32;
lValue2Length: UInt32;
lTokenAsByte: Byte;
begin
// lSize :=
// SizeOf(UInt32) + {total record size}
// 1 + //Token Type as Byte
// 4 + //Value1 Size in bytes as UInt32
// Length(Value1) * SizeOf(Char) + //value1 bytes
// 4 + //Value2 Size in bytes as UInt32
// Length(Value2) * SizeOf(Char) + //value2 bytes
// 8 + //ref1
// 8; //ref2
// aBytes.Write(lSize);
lTokenAsByte := Byte(TokenType);
aBytes.Write(lTokenAsByte);
lValue1Bytes := TEncoding.Unicode.GetBytes(Value1);
lValue1Length := UInt16(Length(lValue1Bytes));
aBytes.Write(lValue1Length);
aBytes.Write(lValue1Bytes);
lValue2Bytes := TEncoding.Unicode.GetBytes(Value2);
lValue2Length := UInt16(Length(lValue2Bytes));
aBytes.Write(lValue2Length);
aBytes.Write(lValue2Bytes);
aBytes.Write(Ref1);
aBytes.Write(Ref2);
end;
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function TToken.TokenTypeAsString: String;
begin
Result := TOKEN_TYPE_DESCR[self.TokenType];
end;
function TToken.ToString: String;
begin
Result := Format('%15s | Ref1: %8d | Ref2: %8d | Val1: %-25s| Val2: %-25s',
[TokenTypeAsString, Ref1, Ref2, Value1, Value2]);
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end;
{ TTProCompiledTemplate }
constructor TTProCompiledTemplate.Create(Tokens: TList<TToken>);
begin
inherited Create;
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fLoopsStack := TObjectList<TLoopStackItem>.Create(True);
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fTokens := Tokens;
fTemplateFunctions := TDictionary<string, TTProTemplateFunction>.Create(TTProEqualityComparer.Create);
fTemplateAnonFunctions := nil;
TTProConfiguration.RegisterHandlers(self);
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fLocaleFormatSettings := TFormatSettings.Invariant;
fLocaleFormatSettings.ShortDateFormat := 'yyyy-mm-dd';
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end;
class function TTProCompiledTemplate.CreateFromFile(const FileName: String): ITProCompiledTemplate;
var
lBR: TBinaryReader;
lTokens: TList<TToken>;
begin
lBR := TBinaryReader.Create(TFileStream.Create(FileName, fmOpenRead or fmShareDenyNone), nil, True);
try
lTokens := TList<TToken>.Create;
try
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try
while True do
begin
lTokens.Add(TToken.CreateFromBytes(lBR));
if lTokens.Last.TokenType = ttEOF then
begin
Break;
end;
end;
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except
on E: Exception do
begin
raise ETProRenderException.CreateFmt
('Cannot load compiled template from [FILE: %s][CLASS: %s][MSG: %s] - consider to delete templates cache.',
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[FileName, E.ClassName, E.Message])
end;
end;
Result := TTProCompiledTemplate.Create(lTokens);
except
lTokens.Free;
raise;
end;
finally
lBR.Free;
end;
end;
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destructor TTProCompiledTemplate.Destroy;
begin
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fLoopsStack.Free;
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fTemplateFunctions.Free;
fTemplateAnonFunctions.Free;
fTokens.Free;
fVariables.Free;
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inherited;
end;
procedure TTProCompiledTemplate.DoOnGetValue(const DataSource, Members: string; var Value: TValue;
var Handled: Boolean);
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begin
Handled := False;
if Assigned(fOnGetValue) then
begin
fOnGetValue(DataSource, Members, Value, Handled);
end;
end;
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procedure TTProCompiledTemplate.DumpToFile(const FileName: String);
begin
InternalDumpToFile(FileName, fTokens);
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end;
procedure TTProCompiledTemplate.Error(const aMessage: String);
begin
raise ETProRenderException.Create(aMessage) at ReturnAddress;
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end;
procedure TTProCompiledTemplate.ForEachToken(const TokenProc: TTokenWalkProc);
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var
I: Integer;
begin
for I := 0 to fTokens.Count - 1 do
begin
TokenProc(I, fTokens[I]);
end;
end;
function TTProCompiledTemplate.Render: String;
var
lIdx: Int64;
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lBuff: TStringBuilder;
lDataSourceName: string;
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lVariable: TVarDataSource;
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lWrapped: ITProWrappedList;
lJumpTo: Integer;
lVarName: string;
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lVarValue: TValue;
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lJArr: TJDOJsonArray;
lJObj: TJDOJsonObject;
lVarMember: string;
lBaseVarName: string;
lFullPath: string;
lForLoopItem: TLoopStackItem;
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lJValue: TJsonDataValueHelper;
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lMustBeEncoded: Boolean;
lSavedIdx: Int64;
lTemplateSectionType: TTProTemplateSectionType;
lErrorMessage: String;
lBlockReturnAddress: Int64;
lCurrentBlockName: string;
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begin
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lBlockReturnAddress := -1;
lTemplateSectionType := stUnknown;
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lBuff := TStringBuilder.Create;
try
lIdx := 0;
while fTokens[lIdx].TokenType <> ttEOF do
begin
// Writeln(fTokens[lIdx].ToString);
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case fTokens[lIdx].TokenType of
ttContent:
begin
lBuff.Append(fTokens[lIdx].Value1);
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end;
ttFor:
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begin
lForLoopItem := PeekLoop;
if LoopStackIsEmpty or (lForLoopItem.LoopExpression <> fTokens[lIdx].Value1) then
begin // push a new loop stack item
SplitVariableName(fTokens[lIdx].Value1, lVarName, lVarMember);
{ lVarName maybe an iterator, so I've to walk the stack to know
the real information about the iterator }
if WalkThroughLoopStack(lVarName, lBaseVarName, lFullPath) then
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begin
lFullPath := lFullPath + '.' + lVarMember;
PushLoop(TLoopStackItem.Create(lBaseVarName, fTokens[lIdx].Value1, lFullPath, fTokens[lIdx].Value2));
end
else
begin
PushLoop(TLoopStackItem.Create(lVarName, fTokens[lIdx].Value1, lVarMember, fTokens[lIdx].Value2));
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end;
end;
lForLoopItem := PeekLoop;
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// Now, work with the stack head
if GetVariables.TryGetValue(PeekLoop.DataSourceName, lVariable) then
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begin
if lForLoopItem.FullPath.IsEmpty then
begin
if not(viIterable in lVariable.VarOption) then
begin
Error(Format('Cannot iterate over a not iterable object [%s]', [fTokens[lIdx].Value1]));
end;
end;
if viDataSet in lVariable.VarOption then
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begin
if lForLoopItem.IteratorPosition = -1 then
begin
TDataSet(lVariable.VarValue.AsObject).First;
end;
if TDataSet(lVariable.VarValue.AsObject).Eof then
begin
lIdx := fTokens[lIdx].Ref1; // skip to endfor
Continue;
end
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end
else if viListOfObject in lVariable.VarOption then
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begin
lWrapped := WrapAsList(lVariable.VarValue.AsObject);
// if lVariable.VarIterator = lWrapped.Count - 1 then
if lForLoopItem.IteratorPosition = lWrapped.Count - 1 then
begin
lIdx := fTokens[lIdx].Ref1; // skip to endif
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Continue;
end
else
begin
PeekLoop.IncrementIteratorPosition;
// lVariable.VarIterator := lVariable.VarIterator + 1;
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end;
end
else if viJSONObject in lVariable.VarOption then
begin
lJObj := TJDOJsonObject(lVariable.VarValue.AsObject);
lForLoopItem := PeekLoop;
lJValue := lJObj.Path[lForLoopItem.FullPath];
case lJValue.Typ of
jdtNone:
begin
lIdx := fTokens[lIdx].Ref1; // skip to endfor
Continue;
end;
jdtArray:
begin
if lForLoopItem.IteratorPosition = lJObj.Path[lForLoopItem.FullPath].ArrayValue.Count - 1 then
begin
lIdx := fTokens[lIdx].Ref1; // skip to endfor
Continue;
end
else
begin
lForLoopItem.IncrementIteratorPosition;
end;
end;
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else
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begin
Error('Only JSON array can be iterated');
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end;
end;
end
else
begin
Error('Iteration not allowed for "' + fTokens[lIdx].Value1 + '"');
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end;
end
else
begin
Error(Format('Unknown variable in for..in statement [%s]', [fTokens[lIdx].Value1]));
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end;
end;
ttEndFor:
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begin
if LoopStackIsEmpty then
begin
raise ETProRenderException.Create('Inconsistent "endfor"');
end;
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lForLoopItem := PeekLoop;
lDataSourceName := lForLoopItem.DataSourceName;
if GetVariables.TryGetValue(lDataSourceName, lVariable) then
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begin
if viDataSet in lVariable.VarOption then
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begin
TDataSet(lVariable.VarValue.AsObject).Next;
lForLoopItem.IteratorPosition := TDataSet(lVariable.VarValue.AsObject).RecNo;
if not TDataSet(lVariable.VarValue.AsObject).Eof then
begin
lIdx := fTokens[lIdx].Ref1; // goto loop
Continue;
end
else
begin
PopLoop;
end;
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end
else if viJSONObject in lVariable.VarOption then
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begin
lJObj := TJDOJsonObject(lVariable.VarValue.AsObject);
lJArr := lJObj.Path[lForLoopItem.FullPath];
if lForLoopItem.IteratorPosition < lJArr.Count - 1 then
begin
lIdx := fTokens[lIdx].Ref1; // skip to loop
Continue;
end
else
begin
PopLoop;
end;
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end
else if viListOfObject in lVariable.VarOption then
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begin
lWrapped := TTProDuckTypedList.Wrap(lVariable.VarValue.AsObject);
if lForLoopItem.IteratorPosition < lWrapped.Count - 1 then
begin
lIdx := fTokens[lIdx].Ref1; // skip to loop
Continue;
end
else
begin
PopLoop;
end;
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end;
end;
end;
ttIfThen:
begin
lSavedIdx := lIdx;
if EvaluateIfExpressionAt(lIdx) then
begin
// do nothing
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end
else
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begin
lIdx := lSavedIdx;
if fTokens[lIdx].Ref1 > -1 then { there is an else }
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begin
lJumpTo := fTokens[lIdx].Ref1 + 1;
// jump to the statement "after" ttElse (if it is ttLineBreak, jump it)
if fTokens[lJumpTo].TokenType <> ttLineBreak then
lIdx := lJumpTo
else
lIdx := lJumpTo + 1;
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Continue;
end;
lIdx := fTokens[lIdx].Ref2; // jump to "endif"
Continue;
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end;
end;
ttElse:
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begin
// always jump to ttEndIf which it reference is at ttElse.Ref2
lIdx := fTokens[lIdx].Ref2;
Continue;
end;
ttEndIf, ttStartTag, ttEndTag:
begin
end;
ttInclude:
begin
Error('Invalid token in RENDER phase: ttInclude');
end;
ttBoolExpression:
begin
Error('Token ttBoolExpression cannot be at first RENDER level, should be handled by ttIfThen TOKEN');
end;
ttValue, ttLiteralString:
begin
lVarValue := EvaluateValue(lIdx, lMustBeEncoded { must be encoded } );
if lMustBeEncoded { lRef2 = -1 // encoded } then
lBuff.Append(HTMLEncode(lVarValue.ToString))
else
lBuff.Append(lVarValue.ToString);
if lVarValue.IsObjectInstance then
begin
lVarValue.AsObject.Free;
end;
end;
ttLineBreak:
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begin
lBuff.AppendLine;
end;
ttSystemVersion:
begin
if fTokens[lIdx].Value1 <> TEMPLATEPRO_VERSION then
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begin
Error('Compiled template has been compiled with a different version. Expected ' + TEMPLATEPRO_VERSION +
' got ' + fTokens[lIdx].Value1);
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end;
end;
ttContinue:
begin
lIdx := fTokens[lIdx].Ref1;
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Continue;
end;
ttExit:
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begin
// do nothing
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end;
ttInfo:
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begin
if not HandleTemplateSectionStateMachine(fTokens[lIdx].Value1, lTemplateSectionType, lErrorMessage) then
Error(lErrorMessage);
if fTokens[lIdx].Value1 = STR_END_OF_LAYOUT then
begin
lIdx := fTokens.Count - 1; //clean break
Continue;
end;
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end;
ttBlock: begin
lCurrentBlockName := fTokens[lIdx].Value1;
if lTemplateSectionType = stLayout then
begin
lBlockReturnAddress := -1;
if fTokens[lIdx].Ref1 > -1 then
begin
{block has been overwritten, let's jump to the Ref1 and set the return address}
lBlockReturnAddress := fTokens[lIdx].Ref2 + 1; {after its endblock}
lIdx := fTokens[lIdx].Ref1;
lTemplateSectionType := stPage;
Continue;
end;
end
else if lTemplateSectionType = stPage then
begin
// do nothing
end
else
Error('Internal Error: [17BAE02C]');
end;
ttEndBlock: begin
if lTemplateSectionType = stLayout then
begin
// do nothing
lCurrentBlockName := '';
end
else if lTemplateSectionType = stPage then
begin
if lBlockReturnAddress = -1 then
begin
Error('ReturnAddress not set for block "' + lCurrentBlockName + '"')
end;
lIdx := lBlockReturnAddress;
lBlockReturnAddress := -1;
lTemplateSectionType := stLayout;
lCurrentBlockName := '';
Continue;
end
else
Error('Internal Error: [E35E98FB]');
end;
else
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begin
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Error('Invalid token at index #' + lIdx.ToString + ': ' + fTokens[lIdx].TokenTypeAsString);
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end;
end;
Inc(lIdx);
end;
Result := lBuff.ToString;
finally
lBuff.Free;
end;
end;
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function TTProCompiledTemplate.GetVarAsString(const Name: string): string;
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var
lValue: TValue;
begin
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lValue := GetVarAsTValue(Name);
Result := GetTValueVarAsString(lValue, Name);
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end;
function TTProCompiledTemplate.GetVarAsTValue(const aName: string): TValue;
var
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lVariable: TVarDataSource;
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lHasMember: Boolean;
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lJPath: string;
lDataSource: string;
lIsAnIterator: Boolean;
lJObj: TJDOJsonObject;
lVarName: string;
lVarMembers: string;
lCurrentIterator: TLoopStackItem;
lPJSONDataValue: TJsonDataValueHelper;
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lHandled: Boolean;
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begin
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lCurrentIterator := nil;
SplitVariableName(aName, lVarName, lVarMembers);
lHasMember := not lVarMembers.IsEmpty;
lIsAnIterator := IsAnIterator(lVarName, lDataSource, lCurrentIterator);
if not lIsAnIterator then
begin
lDataSource := lVarName;
end;
if GetVariables.TryGetValue(lDataSource, lVariable) then
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begin
if lVariable = nil then
begin
Exit(nil);
end;
if viDataSet in lVariable.VarOption then
begin
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if lIsAnIterator then
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begin
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if lHasMember and lVarMembers.StartsWith('@@') then
begin
lCurrentIterator.IteratorPosition := TDataSet(lVariable.VarValue.AsObject).RecNo - 1;
Result := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
end
else
begin
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if lVarMembers.IsEmpty then
begin
Error('Empty field name while reading from iterator "%s"', [lVarName]);
end;
Result := GetDataSetFieldAsTValue(TDataSet(lVariable.VarValue.AsObject), lVarMembers);
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end;
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end
else
begin
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{ not an interator }
if lHasMember then
begin
Result := GetDataSetFieldAsTValue(TDataSet(lVariable.VarValue.AsObject), lVarMembers);
end
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else
begin
Result := lVariable.VarValue.AsObject;
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end;
end;
end
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else if viJSONObject in lVariable.VarOption then
begin
lJObj := TJDOJsonObject(lVariable.VarValue.AsObject);
if lIsAnIterator then
begin
if lVarMembers.StartsWith('@@') then
begin
Result := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
end
else
begin
lJPath := lCurrentIterator.FullPath;
lPJSONDataValue := lJObj.Path[lJPath].ArrayValue[lCurrentIterator.IteratorPosition];
if lPJSONDataValue.Typ in [jdtArray, jdtObject] then
begin
if not lVarMembers.IsEmpty then
lPJSONDataValue := lPJSONDataValue.Path[lVarMembers];
case lPJSONDataValue.Typ of
jdtArray:
begin
Result := lPJSONDataValue.ArrayValue.ToJSON();
end;
jdtObject:
begin
Result := lPJSONDataValue.ObjectValue.ToJSON();
end;
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jdtFloat:
begin
Result := lPJSONDataValue.FloatValue;
end;
jdtInt:
begin
Result := lPJSONDataValue.IntValue;
end;
jdtLong:
begin
Result := lPJSONDataValue.LongValue;
end;
jdtULong:
begin
Result := lPJSONDataValue.ULongValue;
end;
jdtBool:
begin
Result := lPJSONDataValue.BoolValue;
end;
else
Result := lPJSONDataValue.Value;
end;
end
else
begin
if lVarMembers.IsEmpty then
Result := lPJSONDataValue.Value
else
Result := '';
end;
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end;
end
else
begin
lJPath := aName.Remove(0, Length(lVarName) + 1);
if lJPath.IsEmpty then
Result := lJObj
else
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begin
lPJSONDataValue := lJObj.Path[lJPath];
if lPJSONDataValue.Typ = jdtString then
begin
Result := lJObj.Path[lJPath].Value
end
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else if lPJSONDataValue.Typ = jdtInt then
begin
Result := lPJSONDataValue.IntValue;
end
else if lPJSONDataValue.Typ = jdtLong then
begin
Result := lPJSONDataValue.LongValue;
end
else if lPJSONDataValue.Typ = jdtULong then
begin
Result := lPJSONDataValue.ULongValue;
end
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else if lPJSONDataValue.Typ = jdtArray then
begin
Result := lPJSONDataValue.ArrayValue;
end
else if lPJSONDataValue.Typ = jdtObject then
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begin
Result := lPJSONDataValue.ObjectValue;
end
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else if lPJSONDataValue.Typ = jdtNone then
begin
Result := '';
end
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else
raise ETProRenderException.Create('Unknown type for path ' + lJPath);
end;
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end;
end
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else if viListOfObject in lVariable.VarOption then
begin
if lVarMembers.StartsWith('@@') then
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begin
Result := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
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end
else
begin
if lIsAnIterator then
begin
if lHasMember then
Result := TTProRTTIUtils.GetProperty(WrapAsList(lVariable.VarValue.AsObject)
.GetItem(lCurrentIterator.IteratorPosition), lVarMembers)
else
Result := WrapAsList(lVariable.VarValue.AsObject).GetItem(lCurrentIterator.IteratorPosition);
end
else
begin
if lHasMember then
Error(lDataSource + ' can be used only with filters or iterated using its alias')
else
begin
Result := lVariable.VarValue.AsObject;
end;
end;
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end;
end
else if viObject in lVariable.VarOption then
begin
if lHasMember then
Result := TTProRTTIUtils.GetProperty(lVariable.VarValue.AsObject, lVarMembers)
else
Result := lVariable.VarValue;
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end
else if viSimpleType in lVariable.VarOption then
begin
if lVariable.VarValue.IsEmpty then
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begin
Result := TValue.Empty;
end
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else
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begin
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Result := lVariable.VarValue;
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end;
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end;
end
else
begin
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DoOnGetValue(lDataSource, lVarMembers, Result, lHandled);
if not lHandled then
begin
Result := TValue.Empty;
end;
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end;
end;
function TTProCompiledTemplate.GetVariables: TTProVariables;
begin
if not Assigned(fVariables) then
begin
fVariables := TTProVariables.Create;
end;
Result := fVariables;
end;
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procedure TTProCompiledTemplate.InitTemplateAnonFunctions;
begin
if fTemplateAnonFunctions = nil then
begin
fTemplateAnonFunctions := TDictionary<string, TTProTemplateAnonFunction>.Create;
end;
end;
class procedure TTProCompiledTemplate.InternalDumpToFile(const FileName: String; const aTokens: TList<TToken>);
var
lToken: TToken;
lSW: TStreamWriter;
lIdx: Int64;
begin
lSW := TStreamWriter.Create(FileName);
try
lIdx := 0;
for lToken in aTokens do
begin
lSW.WriteLine('%5d %s', [lIdx, lToken.ToString]);
Inc(lIdx);
end;
lSW.Close;
finally
lSW.Free;
end;
end;
function TTProCompiledTemplate.IsAnIterator(const VarName: String; out DataSourceName: String;
out CurrentIterator: TLoopStackItem): Boolean;
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var
I: Integer;
begin
Result := False;
if not LoopStackIsEmpty then { search datasource using current iterators stack }
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begin
for I := fLoopsStack.Count - 1 downto 0 do
begin
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if SameText(fLoopsStack[I].IteratorName, VarName) then
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begin
Result := True;
DataSourceName := fLoopsStack[I].DataSourceName;
CurrentIterator := fLoopsStack[I];
Break;
end;
end;
end;
end;
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function TTProCompiledTemplate.IsTruthy(const Value: TValue): Boolean;
var
lStrValue: String;
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lWrappedList: ITProWrappedList;
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begin
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if Value.IsEmpty then
begin
Exit(False);
end;
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lStrValue := Value.ToString;
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if Value.IsObjectInstance then
begin
if Value.AsObject = nil then
begin
lStrValue := '';
end
else if Value.AsObject is TDataSet then
begin
lStrValue := TDataSet(Value.AsObject).RecordCount.ToString;
end
else if Value.AsObject is TJsonArray then
begin
lStrValue := TJsonArray(Value.AsObject).Count.ToString;
end
else if Value.AsObject is TJsonObject then
begin
lStrValue := TJsonObject(Value.AsObject).Count.ToString;
end
else
begin
lWrappedList := TTProDuckTypedList.Wrap(Value.AsObject);
if lWrappedList = nil then
begin
lStrValue := '';
end
else
begin
lStrValue := lWrappedList.Count.ToString;
end;
end;
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end
else if Value.IsType<Boolean> then
begin
lStrValue := Value.AsType<Boolean>.ToString.ToLower;
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end;
Result := not(SameText(lStrValue, 'false') or SameText(lStrValue, '0') or SameText(lStrValue, ''));
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end;
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function TTProCompiledTemplate.LoopStackIsEmpty: Boolean;
begin
Result := fLoopsStack.Count = 0;
end;
function TTProCompiledTemplate.PeekLoop: TLoopStackItem;
begin
if fLoopsStack.Count = 0 then
begin
Result := nil;
end
else
begin
Result := fLoopsStack.Last;
end;
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end;
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procedure TTProCompiledTemplate.PopLoop;
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begin
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fLoopsStack.Delete(fLoopsStack.Count - 1);
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end;
procedure TTProCompiledTemplate.PushLoop(const LoopStackItem: TLoopStackItem);
begin
fLoopsStack.Add(LoopStackItem);
end;
procedure TTProCompiledTemplate.Error(const aMessage: String; const Params: array of const);
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begin
Error(Format(aMessage, Params));
end;
// function TTProCompiledTemplate.EvaluateIfExpression(aIdentifier: string): Boolean;
// var
// lVarValue: TValue;
// lNegation: Boolean;
// lVariable: TVarDataSource;
// lTmp: Boolean;
// lDataSourceName: String;
// lHasMember: Boolean;
// lList: ITProWrappedList;
// lVarName, lVarMembers: String;
// lCurrentIterator: TLoopStackItem;
// lIsAnIterator: Boolean;
// lHandled: Boolean;
// begin
// lNegation := aIdentifier.StartsWith('!');
// if lNegation then
// aIdentifier := aIdentifier.Remove(0,1);
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//
// SplitVariableName(aIdentifier, lVarName, lVarMembers);
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//
// lHasMember := Length(lVarMembers) > 0;
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//
// lIsAnIterator := IsAnIterator(lVarName, lDataSourceName, lCurrentIterator);
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//
// if not lIsAnIterator then
// begin
// lDataSourceName := lVarName;
// end;
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//
// if GetVariables.TryGetValue(lDataSourceName, lVariable) then
// begin
// if lVariable = nil then
// begin
// Exit(lNegation xor False);
// end;
// if viDataSet in lVariable.VarOption then
// begin
// if lHasMember then
// begin
// if lVarMembers.StartsWith('@@') then
// begin
// if not lIsAnIterator then
// begin
// Error('Pseudovariables (@@) can be used only on iterators');
// end;
// lVarValue := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
// end
// else
// begin
// lVarValue := TValue.From<Variant>(TDataSet(lVariable.VarValue.AsObject).FieldByName(lVarMembers).Value);
// end;
// lTmp := IsTruthy(lVarValue);
// end
// else
// begin
// lTmp := not TDataSet(lVariable.VarValue.AsObject).Eof;
// end;
// Exit(lNegation xor lTmp);
// end
// else if viListOfObject in lVariable.VarOption then
// begin
// lList := WrapAsList(lVariable.VarValue.AsObject);
// if lHasMember then
// begin
// if lVarMembers.StartsWith('@@') then
// begin
// lVarValue := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
// end
// else
// begin
// lVarValue := TTProRTTIUtils.GetProperty(lList.GetItem(lCurrentIterator.IteratorPosition), lVarMembers);
// end;
// lTmp := IsTruthy(lVarValue);
// end
// else
// begin
// lTmp := lList.Count > 0;
// end;
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//
// if lNegation then
// begin
// Exit(not lTmp);
// end;
// Exit(lTmp);
// end
// else if [viObject, viJSONObject] * lVariable.VarOption <> [] then
// begin
// if lHasMember then
// begin
// if lVarMembers.StartsWith('@@') then
// begin
// lVarValue := GetPseudoVariable(lCurrentIterator.IteratorPosition, lVarMembers);
// end
// else
// begin
// lVarValue := GetVarAsTValue(lDataSourceName);
// end;
// lTmp := IsTruthy(lVarValue);
// end
// else
// begin
// lTmp := not lVarValue.IsEmpty;
// end;
// if lNegation then
// begin
// Exit(not lTmp);
// end;
// Exit(lTmp);
// end
// else if viSimpleType in lVariable.VarOption then
// begin
// lTmp := IsTruthy(lVariable.VarValue);
// Exit(lNegation xor lTmp)
// end;
// end
// else
// begin
// lHandled := False;
// DoOnGetValue(lVarName, lVarMembers, lVarValue, lHandled);
// if lHandled then
// begin
// lTmp := IsTruthy(lVarValue);
// if lNegation then
// begin
// Exit(not lTmp);
// end;
// Exit(lTmp);
// end;
// end;
// Exit(lNegation xor False);
// end;
function TTProCompiledTemplate.EvaluateIfExpressionAt(var Idx: Int64): Boolean;
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var
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lMustBeEncoded: Boolean;
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begin
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Inc(Idx);
if fTokens[Idx].TokenType <> ttBoolExpression then
begin
Error('Expected ttBoolExpression after ttIfThen');
end;
Result := IsTruthy(EvaluateValue(Idx, lMustBeEncoded));
end;
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function TTProCompiledTemplate.EvaluateValue(var Idx: Int64; out MustBeEncoded: Boolean): TValue;
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var
lCurrTokenType: TTokenType;
lVarName: string;
lFilterName: string;
lFilterParCount: Int64;
lFilterParameters: TArray<String>;
I: Integer;
lNegated: Boolean;
begin
// Ref1 contains the optional filter parameter number (-1 if there isn't any filter)
// Ref2 is -1 if the variable must be HTMLEncoded, while contains 1 is the value must not be HTMLEncoded
MustBeEncoded := fTokens[Idx].Ref2 = -1;
lCurrTokenType := fTokens[Idx].TokenType;
lVarName := fTokens[Idx].Value1;
lNegated := lVarName.StartsWith('!');
if lNegated then
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begin
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lVarName := lVarName.Substring(1);
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end;
if fTokens[Idx].Ref1 > -1 { has a filter with Ref1 parameters cout } then
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begin
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Inc(Idx);
lFilterName := fTokens[Idx].Value1;
lFilterParCount := fTokens[Idx].Ref1; // parameter count
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SetLength(lFilterParameters, lFilterParCount);
for I := 0 to lFilterParCount - 1 do
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begin
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Inc(Idx);
Assert(fTokens[Idx].TokenType = ttFilterParameter);
lFilterParameters[I] := fTokens[Idx].Value1;
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end;
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case lCurrTokenType of
ttValue:
Result := ExecuteFilter(lFilterName, lFilterParameters, GetVarAsTValue(lVarName), lVarName);
ttBoolExpression:
Result := IsTruthy(ExecuteFilter(lFilterName, lFilterParameters, GetVarAsTValue(lVarName), lVarName));
ttLiteralString:
Result := ExecuteFilter(lFilterName, lFilterParameters, lVarName, lVarName);
else
Error('Invalid token in EvaluateValue');
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end;
end
else
begin
case lCurrTokenType of
ttValue:
Result := GetVarAsString(lVarName);
ttBoolExpression:
Result := IsTruthy(GetVarAsTValue(lVarName));
ttLiteralString:
Result := lVarName;
else
Error('Invalid token in EvaluateValue');
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end;
end;
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if lNegated then
begin
Result := not Result.AsBoolean;
end;
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end;
procedure TTProCompiledTemplate.SaveToFile(const FileName: String);
var
lToken: TToken;
lBW: TBinaryWriter;
begin
lBW := TBinaryWriter.Create(TFileStream.Create(FileName, fmCreate or fmOpenWrite or fmShareDenyNone), nil, True);
try
for lToken in fTokens do
begin
lToken.SaveToBytes(lBW);
end;
finally
lBW.Free;
end;
end;
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procedure TTProCompiledTemplate.SetData(const Name: String; Value: TValue);
var
lWrappedList: ITProWrappedList;
begin
if Value.IsEmpty then
begin
GetVariables.Add(Name, nil);
Exit;
end;
case Value.Kind of
tkClass:
begin
if Value.AsObject is TDataSet then
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begin
GetVariables.Add(Name, TVarDataSource.Create(Value.AsObject, [viDataSet, viIterable]));
end
else if Value.AsObject is TJDOJsonObject then
begin
GetVariables.Add(Name, TVarDataSource.Create(TJDOJsonObject(Value.AsObject), [viJSONObject]));
end
else if Value.AsObject is TJDOJsonArray then
begin
raise ETProRenderException.Create
('JSONArray cannot be used directly [HINT] Define a JSONObject variable with a JSONArray property');
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end
else
begin
if TTProDuckTypedList.CanBeWrappedAsList(Value.AsObject, lWrappedList) then
begin
GetVariables.Add(Name, TVarDataSource.Create(TTProDuckTypedList(Value.AsObject),
[viListOfObject, viIterable]));
end
else
begin
GetVariables.Add(Name, TVarDataSource.Create(Value.AsObject, [viObject]));
end;
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end;
end;
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tkInterface: GetVariables.Add(Name, TVarDataSource.Create(Value.AsInterface as TObject, [viObject]));
tkInteger, tkString, tkUString, tkFloat, tkEnumeration : GetVariables.Add(Name, TVarDataSource.Create(Value, [viSimpleType]));
else
raise ETProException.Create('Invalid type for variable "' + Name + '": ' + TRttiEnumerationType.GetName<TTypeKind>(Value.Kind));
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end;
end;
procedure TTProCompiledTemplate.SetFormatSettings(const Value: PTProFormatSettings);
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begin
fLocaleFormatSettings := Value^;
end;
procedure TTProCompiledTemplate.SetOnGetValue(const Value: TTProCompiledTemplateGetValueEvent);
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begin
fOnGetValue := Value;
end;
procedure TTProCompiledTemplate.SplitVariableName(const VariableWithMember: String; out VarName, VarMembers: String);
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var
lDotPos: Integer;
begin
VarName := VariableWithMember;
VarMembers := '';
lDotPos := VarName.IndexOf('.');
if lDotPos > -1 then
begin
VarName := VariableWithMember.Substring(0, lDotPos);
VarMembers := VariableWithMember.Substring(lDotPos + 1);
end;
end;
function TTProCompiledTemplate.WalkThroughLoopStack(const VarName: String; out BaseVarName, FullPath: String): Boolean;
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var
I: Integer;
begin
Result := False;
for I := fLoopsStack.Count - 1 downto 0 do
begin
if VarName = fLoopsStack[I].IteratorName then
begin
BaseVarName := fLoopsStack[I].DataSourceName;
FullPath := fLoopsStack[I].FullPath + '[' + fLoopsStack[I].IteratorPosition.ToString + ']';
Result := True;
end;
end;
end;
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procedure TTProCompiledTemplate.ClearData;
begin
GetVariables.Clear;
end;
{ TVarInfo }
constructor TVarDataSource.Create(const VarValue: TValue; const VarOption: TTProVariablesInfos);
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begin
self.VarValue := VarValue;
self.VarOption := VarOption;
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end;
{ TTProVariables }
constructor TTProVariables.Create;
begin
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inherited Create([doOwnsValues], TTProEqualityComparer.Create);
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end;
/// ///////////////////
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/// UTILS
class function TTProRTTIUtils.GetProperty(AObject: TObject; const APropertyName: string): TValue;
var
Prop: TRttiProperty;
ARttiType: TRttiType;
begin
ARttiType := GlContext.GetType(AObject.ClassType);
if not Assigned(ARttiType) then
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raise Exception.CreateFmt('Unknown type [%s]', [ARttiType.ToString]);
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Prop := ARttiType.GetProperty(APropertyName);
if not Assigned(Prop) then
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raise Exception.CreateFmt('Unknown property [%s.%s]', [ARttiType.ToString, APropertyName]);
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if Prop.IsReadable then
Result := Prop.GetValue(AObject)
else
raise Exception.CreateFmt('Property is not readable [%s.%s]', [ARttiType.ToString, APropertyName]);
end;
{ TDuckTypedList }
procedure TTProDuckTypedList.Add(const AObject: TObject);
begin
if not Assigned(FAddMethod) then
raise ETProDuckTypingException.Create('Cannot find method "Add" in the Duck Object.');
FAddMethod.Invoke(FObjectAsDuck, [AObject]);
end;
class function TTProDuckTypedList.CanBeWrappedAsList(const AInterfaceAsDuck: IInterface): Boolean;
begin
Result := CanBeWrappedAsList(TObject(AInterfaceAsDuck));
end;
class function TTProDuckTypedList.CanBeWrappedAsList(const AObjectAsDuck: TObject): Boolean;
var
lList: ITProWrappedList;
begin
Result := CanBeWrappedAsList(AObjectAsDuck, lList);
end;
class function TTProDuckTypedList.CanBeWrappedAsList(const AObjectAsDuck: TObject;
out AMVCList: ITProWrappedList): Boolean;
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var
List: ITProWrappedList;
begin
List := TTProDuckTypedList.Create(AObjectAsDuck);
Result := List.IsWrappedList;
if Result then
AMVCList := List;
end;
procedure TTProDuckTypedList.Clear;
begin
if not Assigned(FClearMethod) then
raise ETProDuckTypingException.Create('Cannot find method "Clear" in the Duck Object.');
FClearMethod.Invoke(FObjectAsDuck, []);
end;
function TTProDuckTypedList.Count: Integer;
begin
Result := 0;
if (not Assigned(FGetCountMethod)) and (not Assigned(FCountProperty)) then
raise ETProDuckTypingException.Create('Cannot find property/method "Count" in the Duck Object.');
if Assigned(FCountProperty) then
Result := FCountProperty.GetValue(FObjectAsDuck).AsInteger
else if Assigned(FGetCountMethod) then
Result := FGetCountMethod.Invoke(FObjectAsDuck, []).AsInteger;
end;
constructor TTProDuckTypedList.Create(const AInterfaceAsDuck: IInterface);
begin
Create(TObject(AInterfaceAsDuck));
end;
constructor TTProDuckTypedList.Create(const AObjectAsDuck: TObject);
begin
inherited Create;
FObjectAsDuck := AObjectAsDuck;
if not Assigned(FObjectAsDuck) then
raise ETProDuckTypingException.Create('Duck Object can not be null.');
FObjType := GlContext.GetType(FObjectAsDuck.ClassInfo);
FAddMethod := nil;
FClearMethod := nil;
FGetItemMethod := nil;
FGetCountMethod := nil;
FCountProperty := nil;
if IsWrappedList then
begin
FAddMethod := FObjType.GetMethod('Add');
FClearMethod := FObjType.GetMethod('Clear');
{$IF CompilerVersion >= 23}
if Assigned(FObjType.GetIndexedProperty('Items')) then
FGetItemMethod := FObjType.GetIndexedProperty('Items').ReadMethod;
{$IFEND}
if not Assigned(FGetItemMethod) then
FGetItemMethod := FObjType.GetMethod('GetItem');
if not Assigned(FGetItemMethod) then
FGetItemMethod := FObjType.GetMethod('GetElement');
FGetCountMethod := nil;
FCountProperty := FObjType.GetProperty('Count');
if not Assigned(FCountProperty) then
FGetCountMethod := FObjType.GetMethod('Count');
end;
end;
function TTProDuckTypedList.GetItem(const AIndex: Integer): TObject;
var
lValue: TValue;
begin
if not Assigned(FGetItemMethod) then
raise ETProDuckTypingException.Create
('Cannot find method Indexed property "Items" or method "GetItem" or method "GetElement" in the Duck Object.');
GetItemAsTValue(AIndex, lValue);
if lValue.Kind = tkInterface then
begin
Exit(TObject(lValue.AsInterface));
end;
if lValue.Kind = tkClass then
begin
Exit(lValue.AsObject);
end;
raise ETProDuckTypingException.Create('Items in list can be only objects or interfaces');
end;
procedure TTProDuckTypedList.GetItemAsTValue(const AIndex: Integer; out aValue: TValue);
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begin
aValue := FGetItemMethod.Invoke(FObjectAsDuck, [AIndex]);
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end;
function TTProDuckTypedList.IsWrappedList: Boolean;
var
ObjectType: TRttiType;
begin
ObjectType := GlContext.GetType(FObjectAsDuck.ClassInfo);
Result := (ObjectType.GetMethod('Add') <> nil) and (ObjectType.GetMethod('Clear') <> nil)
{$IF CompilerVersion >= 23}
and (ObjectType.GetIndexedProperty('Items') <> nil) and (ObjectType.GetIndexedProperty('Items').ReadMethod <> nil)
{$IFEND}
and (ObjectType.GetMethod('GetItem') <> nil) or (ObjectType.GetMethod('GetElement') <> nil) and
(ObjectType.GetProperty('Count') <> nil);
end;
function TTProDuckTypedList.ItemIsObject(const AIndex: Integer; out aValue: TValue): Boolean;
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begin
GetItemAsTValue(AIndex, aValue);
Result := aValue.IsObject;
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end;
class function TTProDuckTypedList.Wrap(const AObjectAsDuck: TObject): ITProWrappedList;
var
List: ITProWrappedList;
begin
if AObjectAsDuck is TTProDuckTypedList then
Exit(TTProDuckTypedList(AObjectAsDuck));
Result := nil;
List := TTProDuckTypedList.Create(AObjectAsDuck);
if List.IsWrappedList then
Result := List;
end;
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{ TLoopStackItem }
constructor TLoopStackItem.Create(DataSourceName, LoopExpression, FullPath: String; IteratorName: String);
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begin
self.DataSourceName := DataSourceName;
self.LoopExpression := LoopExpression;
self.FullPath := FullPath;
self.IteratorName := IteratorName;
self.IteratorPosition := -1;
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end;
function TLoopStackItem.IncrementIteratorPosition: Integer;
begin
Inc(IteratorPosition);
Result := IteratorPosition;
end;
{ TTProConfiguration }
class procedure TTProConfiguration.RegisterHandlers(const TemplateProCompiledTemplate: ITProCompiledTemplate);
begin
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if Assigned(fOnContextConfiguration) then
begin
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fOnContextConfiguration(TemplateProCompiledTemplate);
end;
end;
class function TBlockAddress.Create(BeginBlockAddress, EndBlockAddress: Int64): TBlockAddress;
begin
Result.BeginBlockAddress := BeginBlockAddress;
Result.EndBlockAddress := EndBlockAddress;
end;
function HandleTemplateSectionStateMachine(
const aTokenValue1: String;
var aTemplateSectionType: TTProTemplateSectionType;
out aErrorMessage: String): Boolean;
begin
Result := True;
if aTokenValue1 = STR_BEGIN_OF_LAYOUT then
begin
if aTemplateSectionType = stUnknown then
begin
aTemplateSectionType := stLayout;
end
else
begin
aErrorMessage := 'Unexpected ' + aTokenValue1;
Result := False;
end;
end
else if aTokenValue1 = STR_END_OF_LAYOUT then
begin
if aTemplateSectionType = stLayout then
aTemplateSectionType := stPage
else
begin
aErrorMessage := 'Unexpected ' + aTokenValue1;
Result := False;
end;
end
else
begin
aErrorMessage := 'Unknown ttInfo value: ' + aTokenValue1;
Result := False;
end;
end;
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{ TTProVariablesEqualityComparer }
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function TTProEqualityComparer.Equals(const Left, Right: String): Boolean;
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begin
Result := CompareText(Left, Right) = 0;
end;
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function TTProEqualityComparer.GetHashCode(const Value: String): Integer;
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begin
// Result := BobJenkinsHash(Value[1], Length(Value) * SizeOf(Value[1]), 0);
Result := Length(Value);
end;
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initialization
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GlContext := TRttiContext.Create;
JsonSerializationConfig.LineBreak := sLineBreak;
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finalization
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GlContext.Free;
end.