delphimvcframework/sources/MVCFramework.RQL.Parser.pas
2019-06-24 21:00:17 +02:00

1156 lines
28 KiB
ObjectPascal

// *************************************************************************** }
//
// Delphi MVC Framework
//
// Copyright (c) 2010-2019 Daniele Teti and the DMVCFramework Team
//
// https://github.com/danieleteti/delphimvcframework
//
// ***************************************************************************
//
// 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 MVCFramework.RQL.Parser;
interface
uses
System.Generics.Collections,
System.Math,
System.SysUtils,
MVCFramework.Commons;
{
http://www.persvr.org/rql/
https://github.com/persvr/rql
http://dundalek.com/rql
https://www.sitepen.com/blog/2010/11/02/resource-query-language-a-query-language-for-the-web-nosql/
Here is a definition of the common operators (individual stores may have support for more less operators):
eq(<property>,<value>) - Filters for objects where the specified property's value is equal to the provided value
lt(<property>,<value>) - Filters for objects where the specified property's value is less than the provided value
le(<property>,<value>) - Filters for objects where the specified property's value is less than or equal to the provided value
gt(<property>,<value>) - Filters for objects where the specified property's value is greater than the provided value
ge(<property>,<value>) - Filters for objects where the specified property's value is greater than or equal to the provided value
ne(<property>,<value>) - Filters for objects where the specified property's value is not equal to the provided value
and(<query>,<query>,...) - Applies all the given queries
or(<query>,<query>,...) - The union of the given queries
sort(<+|-><property) - Sorts by the given property in order specified by the prefix (+ for ascending, - for descending)
limit(count,start,maxCount) - Returns the given range of objects from the result set
contains(<property>,<value | expression>) - Filters for objects where the specified property's value is an array and the array contains any value that equals the provided value or satisfies the provided expression.
in(<property>,<array-of-values>) - Filters for objects where the specified property's value is in the provided array
//////NOT AVAILABLES
select(<property>,<property>,...) - Trims each object down to the set of properties defined in the arguments
values(<property>) - Returns an array of the given property value for each object
aggregate(<property|function>,...) - Aggregates the array, grouping by objects that are distinct for the provided properties, and then reduces the remaining other property values using the provided functions
distinct() - Returns a result set with duplicates removed
out(<property>,<array-of-values>) - Filters for objects where the specified property's value is not in the provided array
excludes(<property>,<value | expression>) - Filters for objects where the specified property's value is an array and the array does not contain any of value that equals the provided value or satisfies the provided expression.
rel(<relation name?>,<query>) - Applies the provided query against the linked data of the provided relation name.
sum(<property?>) - Finds the sum of every value in the array or if the property argument is provided, returns the sum of the value of property for every object in the array
mean(<property?>) - Finds the mean of every value in the array or if the property argument is provided, returns the mean of the value of property for every object in the array
max(<property?>) - Finds the maximum of every value in the array or if the property argument is provided, returns the maximum of the value of property for every object in the array
min(<property?>) - Finds the minimum of every value in the array or if the property argument is provided, returns the minimum of the value of property for every object in the array
recurse(<property?>) - Recursively searches, looking in children of the object as objects in arrays in the given property value
first() - Returns the first record of the query's result set
one() - Returns the first and only record of the query's result set, or produces an error if the query's result set has more or less than one record in it.
count() - Returns the count of the number of records in the query's result set
}
type
TRQLToken = (tkEq, tkLt, tkLe, tkGt, tkGe, tkNe, tkAnd, tkOr, tkSort, tkLimit, { RQL } tkAmpersand, tkEOF,
tkOpenPar, tkClosedPar, tkOpenBracket, tkCloseBracket, tkComma, tkSemicolon, tkPlus, tkMinus, tkDblQuote,
tkQuote, tkSpace, tkContains, tkIn, tkUnknown);
TRQLValueType = (vtInteger, vtString, vtBoolean, vtIntegerArray, vtStringArray);
TRQLCustom = class;
TRQLAbstractSyntaxTree = class(TObjectList<TRQLCustom>)
public
constructor Create;
function TreeContainsToken(const aToken: TRQLToken): Boolean;
end;
TRQLCompiler = class abstract
private
fMapping: TMVCFieldsMapping;
protected
function GetDatabaseFieldName(const RQLPropertyName: string): string;
public
constructor Create(const Mapping: TMVCFieldsMapping); virtual;
procedure AST2SQL(const aRQLAST: TRQLAbstractSyntaxTree; out aSQL: string); virtual; abstract;
end;
TRQLCompilerClass = class of TRQLCompiler;
TRQLCustom = class abstract
public
Token: TRQLToken;
constructor Create; virtual;
end;
TRQLCustomOperator = class abstract(TRQLCustom)
end;
TRQLWhere = class(TRQLCustom)
end;
/// <summary>
/// "limit" function. "Start" is 0 based.
/// </summary>
TRQLLimit = class(TRQLCustom)
public
Start: Int64;
Count: Int64;
end;
TRQLFilter = class(TRQLCustomOperator)
public
OpLeft: string;
OpRight: string;
OpRightArray: TArray<String>;
RightValueType: TRQLValueType;
end;
TRQLLogicOperator = class(TRQLCustom)
private
fRQLFilter: TObjectList<TRQLCustom>;
public
constructor Create(const Token: TRQLToken); reintroduce;
destructor Destroy; override;
property FilterAST: TObjectList<TRQLCustom> read fRQLFilter;
procedure AddRQLCustom(const aRQLCustom: TRQLCustom);
end;
TRQLSort = class(TRQLCustom)
private
fFields: TList<string>;
fSigns: TList<string>;
public
constructor Create; override;
destructor Destroy; override;
procedure Add(const Sign, FieldName: string);
property Fields: TList<string> read fFields;
property Signs: TList<string> read fSigns;
const
SIGNS_DESCR: array [tkPlus .. tkMinus] of string = ('+', '-');
end;
ERQLException = class(Exception)
end;
ERQLCompilerNotFound = class(ERQLException)
end;
TRQL2SQL = class
private
fCurIdx: Integer;
fInput: string;
fAST: TRQLAbstractSyntaxTree;
fSavedPos: Integer;
fInputLength: Integer;
fCurr: Char;
fCurrToken: TRQLToken;
fMaxRecordCount: Int64;
protected
/// /// RQL Sections
function ParseFilters: Boolean;
function ParseSort: Boolean;
function ParseLimit: Boolean;
/// ///RQL functions
procedure ParseBinOperator(const aToken: TRQLToken; const aAST: TObjectList<TRQLCustom>);
procedure ParseLogicOperator(const aToken: TRQLToken; const aAST: TObjectList<TRQLCustom>);
procedure ParseSortLimit(const Required: Boolean);
/// //Parser utils
function MatchFieldName(out lFieldName: string): Boolean;
function MatchFieldStringValue(out lFieldValue: string): Boolean;
function MatchFieldNumericValue(out lFieldValue: string): Boolean;
function MatchFieldArrayValue(out lFieldValue: string): Boolean;
function MatchFieldBooleanValue(out lFieldValue: string): Boolean;
function MatchSymbol(const Symbol: Char): Boolean;
procedure SaveCurPos;
procedure BackToLastPos;
function C(const LookAhead: UInt8 = 0): Char;
function GetToken: TRQLToken;
procedure Skip(const Count: UInt8);
procedure Error(const Message: string);
function IsLetter(const aChar: Char): Boolean;
function IsDigit(const aChar: Char): Boolean;
procedure EatWhiteSpaces;
procedure CheckEOF(const Token: TRQLToken);
public
constructor Create(const MaxRecordCount: Integer = -1);
destructor Destroy; override;
procedure Execute(
const RQL: string;
out SQL: string;
const RQLCompiler: TRQLCompiler;
const UseLimit: Boolean = true);
end;
TRQLCompilerRegistry = class sealed
private
class var sInstance: TRQLCompilerRegistry;
class var
_Lock: TObject;
fCompilers: TDictionary<string, TRQLCompilerClass>;
protected
constructor Create;
public
destructor Destroy; override;
class function Instance: TRQLCompilerRegistry;
class destructor Destroy;
class constructor Create;
procedure RegisterCompiler(
const aBackend: string;
const aRQLBackendClass: TRQLCompilerClass);
procedure UnRegisterCompiler(const aBackend: string);
function GetCompiler(const aBackend: string): TRQLCompilerClass;
function RegisteredCompilers: TArray<string>;
end;
implementation
uses
System.Character,
System.StrUtils;
{ TRQL2SQL }
procedure TRQL2SQL.BackToLastPos;
begin
fCurIdx := fSavedPos;
end;
function TRQL2SQL.C(const LookAhead: UInt8): Char;
begin
if fCurIdx + LookAhead >= fInputLength then
Exit(#0);
Result := fInput.Chars[fCurIdx + LookAhead];
fCurr := fInput.Chars[fCurIdx];
end;
procedure TRQL2SQL.CheckEOF(const Token: TRQLToken);
begin
if Token = tkEOF then
Error('Unexpected end of expression');
end;
constructor TRQL2SQL.Create(const MaxRecordCount: Integer);
begin
inherited Create;
fAST := TRQLAbstractSyntaxTree.Create;
fMaxRecordCount := MaxRecordCount;
end;
destructor TRQL2SQL.Destroy;
begin
fAST.Free;
inherited;
end;
procedure TRQL2SQL.EatWhiteSpaces;
var
lToken: TRQLToken;
begin
while true do
begin
SaveCurPos;
lToken := GetToken;
if lToken <> tkSpace then
begin
BackToLastPos;
Break;
end
else
begin
Skip(1);
end;
end;
end;
procedure TRQL2SQL.Error(const Message: string);
var
I: Integer;
lMsg: string;
begin
lMsg := '';
for I := 0 to 4 do
begin
lMsg := lMsg + IfThen(C(I) = #0, '', C(I));
end;
if lMsg.Trim.IsEmpty then
lMsg := '<EOF>';
raise ERQLException.CreateFmt('[Error] %s (column %d - found %s)', [message, fCurIdx, lMsg]);
end;
procedure TRQL2SQL.Execute(
const RQL: string;
out SQL: string;
const RQLCompiler: TRQLCompiler;
const UseLimit: Boolean);
var
lLimit: TRQLLimit;
begin
fAST.Clear;
fCurIdx := 0;
fCurrToken := tkUnknown;
fInput := RQL.Trim;
fInputLength := Length(RQL);
{
filters&sort&limit
filters&sort
filters&limit
&sort&limit
sort
limit
}
EatWhiteSpaces;
if ParseFilters then
begin
fAST.Insert(0, TRQLWhere.Create);
if GetToken = tkSemicolon then
begin
ParseSortLimit(true);
end;
end
else
begin
ParseSortLimit(False);
end;
EatWhiteSpaces;
if GetToken <> tkEOF then
Error('Expected EOF');
// add artificial limit
if UseLimit and (fMaxRecordCount > -1) and (not fAST.TreeContainsToken(tkLimit)) then
begin
lLimit := TRQLLimit.Create;
fAST.Add(lLimit);
lLimit.Token := tkLimit;
lLimit.Start := 0;
lLimit.Count := fMaxRecordCount;
end;
// Emit code from AST using backend
RQLCompiler.AST2SQL(fAST, SQL);
// Emit code from AST using backend
// lCompilerClass := TRQLCompilerRegistry.Instance.GetCompiler(RQLBackend);
// lCompiler := lCompilerClass.Create(Mapping);
// try
// lCompiler.AST2SQL(fAST, SQL);
// finally
// lCompiler.Free;
// end;
end;
function TRQL2SQL.GetToken: TRQLToken;
var
lChar: Char;
begin
lChar := C(0);
if (lChar = #0) then
begin
fCurrToken := tkEOF;
Exit(fCurrToken);
end;
if (lChar = ',') then
begin
Skip(1);
fCurrToken := tkComma;
Exit(fCurrToken);
end;
if (lChar = ';') then
begin
Skip(1);
fCurrToken := tkSemicolon;
Exit(fCurrToken);
end;
if (lChar = '+') then
begin
Skip(1);
fCurrToken := tkPlus;
Exit(fCurrToken);
end;
if (lChar = '"') then
begin
Skip(1);
fCurrToken := tkDblQuote;
Exit(fCurrToken);
end;
if (lChar = '''') then
begin
Skip(1);
fCurrToken := tkQuote;
Exit(fCurrToken);
end;
if (lChar = '-') then
begin
Skip(1);
fCurrToken := tkMinus;
Exit(fCurrToken);
end;
if (lChar = '&') then
begin
Skip(1);
fCurrToken := tkAmpersand;
Exit(fCurrToken);
end;
if (lChar = '(') then
begin
Skip(1);
fCurrToken := tkOpenPar;
Exit(fCurrToken);
end;
if (lChar = ')') then
begin
Skip(1);
fCurrToken := tkClosedPar;
Exit(fCurrToken);
end;
if (lChar = '[') then
begin
Skip(1);
fCurrToken := tkOpenBracket;
Exit(fCurrToken);
end;
if (lChar = ']') then
begin
Skip(1);
fCurrToken := tkCloseBracket;
Exit(fCurrToken);
end;
if (lChar = 'e') and (C(1) = 'q') then
begin
Skip(2);
fCurrToken := tkEq;
Exit(fCurrToken);
end;
if (lChar = 'l') and (C(1) = 't') then
begin
Skip(2);
fCurrToken := tkLt;
Exit(fCurrToken);
end;
if (lChar = 'l') and (C(1) = 'e') then
begin
Skip(2);
fCurrToken := tkLe;
Exit(fCurrToken);
end;
if (lChar = 'g') and (C(1) = 't') then
begin
Skip(2);
fCurrToken := tkGt;
Exit(fCurrToken);
end;
if (lChar = 'g') and (C(1) = 'e') then
begin
Skip(2);
fCurrToken := tkGe;
Exit(fCurrToken);
end;
if (lChar = 'n') and (C(1) = 'e') then
begin
Skip(2);
fCurrToken := tkNe;
Exit(fCurrToken);
end;
if (lChar = 'a') and (C(1) = 'n') and (C(2) = 'd') then
begin
Skip(3);
fCurrToken := tkAnd;
Exit(fCurrToken);
end;
if (lChar = 'o') and (C(1) = 'r') then
begin
Skip(2);
fCurrToken := tkOr;
Exit(fCurrToken);
end;
if (lChar = 's') and (C(1) = 'o') and (C(2) = 'r') and (C(3) = 't') then
begin
Skip(4);
fCurrToken := tkSort;
Exit(fCurrToken);
end;
if (lChar = 'l') and (C(1) = 'i') and (C(2) = 'm') and (C(3) = 'i') and (C(4) = 't') then
begin
Skip(5);
fCurrToken := tkLimit;
Exit(fCurrToken);
end;
if (lChar = 'c') and (C(1) = 'o') and (C(2) = 'n') and (C(3) = 't') and (C(4) = 'a') and (C(5) = 'i') and
(C(6) = 'n') and (C(7) = 's') then
begin
Skip(8);
fCurrToken := tkContains;
Exit(fCurrToken);
end;
if (lChar = 'i') and (C(1) = 'n') then
begin
Skip(2);
fCurrToken := tkIn;
Exit(fCurrToken);
end;
if (lChar = ' ') then
begin
fCurrToken := tkSpace;
Exit(fCurrToken);
end;
fCurrToken := tkUnknown;
Exit(fCurrToken);
end;
function TRQL2SQL.IsDigit(const aChar: Char): Boolean;
begin
Result := (aChar >= '0') and (aChar <= '9');
end;
function TRQL2SQL.IsLetter(const aChar: Char): Boolean;
begin
Result := ((aChar >= 'a') and (aChar <= 'z')) or ((aChar >= 'A') and (aChar <= 'Z'));
end;
{ eq(<property>,<value>) }
procedure TRQL2SQL.ParseBinOperator(const aToken: TRQLToken; const aAST: TObjectList<TRQLCustom>);
var
lFieldName, lFieldValue: string;
lBinOp: TRQLFilter;
lValueType: TRQLValueType;
lToken: TRQLToken;
lList: TList<String>;
lArrayValue: TArray<String>;
begin
lValueType := TRQLValueType.vtInteger; //default
EatWhiteSpaces;
if GetToken <> tkOpenPar then
Error('Expected "("');
EatWhiteSpaces;
if not MatchFieldName(lFieldName) then
Error('Expected field');
EatWhiteSpaces;
if GetToken <> tkComma then
Error('Expected comma');
EatWhiteSpaces;
SaveCurPos;
lToken := GetToken;
if lToken = tkDblQuote then
begin
if not MatchFieldStringValue(lFieldValue) then
Error('Expected string value');
if not MatchSymbol('"') then
Error('Unclosed string');
lValueType := vtString;
end
else if (aToken = tkIn) and (lToken = tkOpenBracket) then
begin
lList := TList<String>.Create;
try
// if not MatchFieldArrayValue(lFieldValue) then
// Error('Expected array value');
EatWhiteSpaces;
if C(0) = '"' then
begin
Skip(1);
lValueType := vtStringArray;
while MatchFieldStringValue(lFieldValue) do
begin
lList.Add(lFieldValue);
if not MatchSymbol('"') then
Error('Expected ''"''');
EatWhiteSpaces;
if not MatchSymbol(',') then
Break;
EatWhiteSpaces;
if GetToken <> tkDblQuote then
Error('Expected ["]');
end;
end
else
begin
lValueType := vtIntegerArray;
while MatchFieldNumericValue(lFieldValue) do
begin
lList.Add(lFieldValue);
EatWhiteSpaces;
if not MatchSymbol(',') then
Break;
EatWhiteSpaces;
end;
end;
if not MatchSymbol(']') then
Error('Unclosed bracket');
lArrayValue := lList.ToArray;
finally
lList.Free;
end;
end
else
begin
BackToLastPos;
if MatchFieldBooleanValue(lFieldValue) then
lValueType := vtBoolean
else if MatchFieldNumericValue(lFieldValue) then
lValueType := vtInteger
else
Error('Expected numeric or boolean value');
end;
EatWhiteSpaces;
if GetToken <> tkClosedPar then
Error('Expected ")"');
lBinOp := TRQLFilter.Create;
aAST.Add(lBinOp);
lBinOp.Token := aToken;
lBinOp.OpLeft := lFieldName;
lBinOp.RightValueType := lValueType;
if lBinOp.RightValueType in [vtIntegerArray, vtStringArray] then
lBinOp.OpRightArray := lArrayValue
else
lBinOp.OpRight := lFieldValue;
end;
function TRQL2SQL.ParseFilters: Boolean;
var
lTk: TRQLToken;
begin
EatWhiteSpaces;
SaveCurPos;
Result := true;
lTk := GetToken;
case lTk of
tkEq, tkLt, tkLe, tkGt, tkGe, tkNe, tkContains, tkIn:
begin
ParseBinOperator(lTk, fAST);
end;
tkAnd, tkOr:
begin
ParseLogicOperator(lTk, fAST);
end;
else
begin
Result := False;
BackToLastPos;
end;
end;
end;
function TRQL2SQL.ParseLimit: Boolean;
var
lStart: string;
lCount: string;
lRQLLimit: TRQLLimit;
begin
SaveCurPos;
if GetToken <> tkLimit then
begin
BackToLastPos;
Exit(False);
end;
if GetToken <> tkOpenPar then
Error('Expected "("');
if not MatchFieldNumericValue(lStart) then
Error('Expected number');
if GetToken <> tkComma then
Error('Expected comma');
if not MatchFieldNumericValue(lCount) then
Error('Expected number');
if GetToken <> tkClosedPar then
Error('Expected ")"');
lRQLLimit := TRQLLimit.Create;
fAST.Add(lRQLLimit);
lRQLLimit.Token := tkLimit;
lRQLLimit.Start := StrToInt64(lStart); // XE7 compat
if fMaxRecordCount > -1 then
begin
lRQLLimit.Count := Min(StrToInt64(lCount), fMaxRecordCount);
end
else
begin
lRQLLimit.Count := StrToInt64(lCount);
end;
Result := true;
end;
procedure TRQL2SQL.ParseLogicOperator(const aToken: TRQLToken;
const aAST: TObjectList<TRQLCustom>);
var
lToken:
TRQLToken;
lLogicOp:
TRQLLogicOperator;
begin
EatWhiteSpaces;
lToken := GetToken;
if lToken <> tkOpenPar then
Error('Expected "("');
EatWhiteSpaces;
lLogicOp := TRQLLogicOperator.Create(aToken);
aAST.Add(lLogicOp);
while true do
begin
EatWhiteSpaces;
lToken := GetToken;
case lToken of
tkEq, tkLt, tkLe, tkGt, tkGe, tkNe, tkContains, tkIn:
begin
ParseBinOperator(lToken, lLogicOp.FilterAST);
end;
tkAnd, tkOr:
begin
ParseLogicOperator(lToken, lLogicOp.FilterAST);
end;
tkComma:
begin
// do nothing
end;
tkClosedPar:
begin
Break;
end;
else
Error('Expected ")" or <Filter>');
end;
end;
end;
function TRQL2SQL.ParseSort: Boolean;
var
lToken: TRQLToken;
lFieldName: string;
lSort: TRQLSort;
begin
Result := true;
SaveCurPos;
if GetToken <> tkSort then
begin
BackToLastPos;
Exit(False);
end;
if GetToken <> tkOpenPar then
Error('Expected "("');
lSort := TRQLSort.Create;
fAST.Add(lSort);
lSort.Token := tkSort;
while true do
begin
EatWhiteSpaces;
lToken := GetToken;
if not(lToken in [tkPlus, tkMinus]) then
Error('Expected "+" or "-"');
if not MatchFieldName(lFieldName) then
Error('Expected field name');
lSort.Add(TRQLSort.SIGNS_DESCR[lToken], lFieldName);
SaveCurPos;
if GetToken <> tkComma then
begin
BackToLastPos;
Break;
end;
end;
if GetToken <> tkClosedPar then
Error('Expected ")"');
end;
procedure TRQL2SQL.ParseSortLimit(const Required: Boolean);
var
lFoundSort: Boolean;
lFoundLimit: Boolean;
begin
EatWhiteSpaces;
lFoundSort := ParseSort;
EatWhiteSpaces;
SaveCurPos;
if GetToken <> tkSemicolon then
begin
BackToLastPos;
end;
lFoundLimit := ParseLimit;
if Required and (not(lFoundSort or lFoundLimit)) then
Error('Expected "sort" and/or "limit"');
end;
procedure TRQL2SQL.SaveCurPos;
begin
fSavedPos := fCurIdx;
end;
procedure TRQL2SQL.Skip(const Count: UInt8);
begin
Inc(fCurIdx, Count);
end;
function TRQL2SQL.MatchFieldArrayValue(out lFieldValue: string): Boolean;
var
lStrFieldValue: string;
lNumFieldValue: string;
lIntValue: string;
begin
EatWhiteSpaces;
if GetToken = tkDblQuote then
begin
while MatchFieldStringValue(lStrFieldValue) do
begin
MatchSymbol('"');
EatWhiteSpaces;
if GetToken = tkComma then
begin
EatWhiteSpaces;
MatchSymbol('"');
Continue;
end
else
begin
Skip(1);
if GetToken <> tkDblQuote then
begin
Exit(true);
end;
end;
end;
end
else
begin
MatchFieldNumericValue(lIntValue);
end;
while MatchFieldNumericValue(lNumFieldValue) do
begin
EatWhiteSpaces;
if MatchSymbol(',') then
begin
Continue;
end
else
begin
Exit(true);
end;
end;
Result := False;
end;
function TRQL2SQL.MatchFieldBooleanValue(out lFieldValue: string): Boolean;
var
lChar: Char;
begin
lFieldValue := '';
lChar := C(0).ToLower;
if (lChar = 't') and (C(1).ToLower = 'r') and (C(2).ToLower = 'u') and (C(3).ToLower = 'e') then
begin
Skip(4);
Result := True;
lFieldValue := 'true';
end
else if (lChar = 'f') and (C(1).ToLower = 'a') and (C(2).ToLower = 'l') and (C(3).ToLower = 's') and (C(4).ToLower = 'e') then
begin
Skip(5);
Result := True;
lFieldValue := 'false';
end
else
Exit(False)
end;
function TRQL2SQL.MatchFieldName(out lFieldName: string): Boolean;
var
lChar: Char;
begin
Result := true;
lChar := C(0);
if IsLetter(lChar) then
begin
lFieldName := lChar;
while true do
begin
Skip(1);
lChar := C(0);
if IsLetter(lChar) or IsDigit(lChar) or (CharInSet(lChar, ['_'])) then
begin
lFieldName := lFieldName + lChar;
end
else
Break;
end;
end
else
Exit(False);
end;
function TRQL2SQL.MatchFieldNumericValue(out lFieldValue: string): Boolean;
var
lChar: Char;
begin
Result := true;
lFieldValue := '';
lChar := C(0);
if CharInSet(lChar, ['+', '-']) then
begin
lFieldValue := lChar;
Skip(1);
lChar := C(0);
end;
if IsDigit(lChar) then
begin
lFieldValue := lFieldValue + lChar;
while true do
begin
Skip(1);
lChar := C(0);
if IsDigit(lChar) then
begin
lFieldValue := lFieldValue + lChar;
end
else
Break;
end;
end
else
Exit(False);
end;
function TRQL2SQL.MatchFieldStringValue(out lFieldValue: string): Boolean;
var
lChar: Char;
begin
Result := true;
while true do
begin
lChar := C(0);
// escape chars
if lChar = '\' then
begin
if C(1) = '"' then
begin
lFieldValue := lFieldValue + '"';
Skip(2);
Continue;
end;
end;
SaveCurPos;
CheckEOF(GetToken);
BackToLastPos;
if lChar <> '"' then
begin
lFieldValue := lFieldValue + lChar;
end
else
Break;
Skip(1);
end;
end;
function TRQL2SQL.MatchSymbol(const Symbol: Char): Boolean;
begin
Result := C(0) = Symbol;
if Result then
Skip(1);
end;
{ TRQLCustom }
constructor TRQLCustom.Create;
begin
inherited;
Token := tkUnknown;
end;
{ TRQLLogicOperator }
procedure TRQLLogicOperator.AddRQLCustom(const aRQLCustom: TRQLCustom);
begin
fRQLFilter.Add(aRQLCustom);
end;
constructor TRQLLogicOperator.Create(const Token: TRQLToken);
begin
inherited Create;
Self.Token := Token;
fRQLFilter := TObjectList<TRQLCustom>.Create(true);
end;
destructor TRQLLogicOperator.Destroy;
begin
fRQLFilter.Free;
inherited;
end;
procedure TRQLSort.Add(const Sign, FieldName: string);
begin
if (Sign <> '+') and (Sign <> '-') then
raise Exception.Create('Invalid Sign: ' + Sign);
fFields.Add(FieldName);
fSigns.Add(Sign);
end;
constructor TRQLSort.Create;
begin
inherited;
fFields := TList<string>.Create;
fSigns := TList<string>.Create;
end;
destructor TRQLSort.Destroy;
begin
fFields.Free;
fSigns.Free;
inherited;
end;
constructor TRQLCompilerRegistry.Create;
begin
inherited;
fCompilers := TDictionary<string, TRQLCompilerClass>.Create;
end;
destructor TRQLCompilerRegistry.Destroy;
begin
fCompilers.Free;
inherited;
end;
class constructor TRQLCompilerRegistry.Create;
begin
_Lock := TObject.Create;
end;
class destructor TRQLCompilerRegistry.Destroy;
begin
_Lock.Free;
sInstance.Free;
end;
function TRQLCompilerRegistry.GetCompiler(const aBackend: string): TRQLCompilerClass;
begin
if not fCompilers.TryGetValue(aBackend, Result) then
begin
raise ERQLCompilerNotFound.Create('RQL Compiler not found');
end;
end;
class
function TRQLCompilerRegistry.Instance: TRQLCompilerRegistry;
begin
if not Assigned(sInstance) then
begin
TMonitor.Enter(_Lock);
try
if not Assigned(sInstance) then
begin
sInstance := TRQLCompilerRegistry.Create;
end;
finally
TMonitor.Exit(_Lock);
end;
end;
Result := sInstance;
end;
procedure TRQLCompilerRegistry.RegisterCompiler(const aBackend: string; const aRQLBackendClass: TRQLCompilerClass);
begin
fCompilers.AddOrSetValue(aBackend, aRQLBackendClass);
end;
function TRQLCompilerRegistry.RegisteredCompilers: TArray<string>;
begin
Result := fCompilers.Keys.ToArray;
end;
procedure TRQLCompilerRegistry.UnRegisterCompiler(const aBackend: string);
begin
fCompilers.Remove(aBackend);
end;
{ TRQLCompiler }
constructor TRQLCompiler.Create(const Mapping: TMVCFieldsMapping);
begin
inherited Create;
fMapping := Mapping;
end;
function TRQLCompiler.GetDatabaseFieldName(
const RQLPropertyName: string): string;
var
lField: TMVCFieldMap;
lRQLProperty: string;
begin
if Length(fMapping) = 0 then
begin
{ If there isn't a mapping, then just pass the RQLProperty as DataBaseFieldName }
Result := RQLPropertyName;
Exit;
end;
lRQLProperty := RQLPropertyName.ToLower;
for lField in fMapping do
begin
if lField.InstanceFieldName = lRQLProperty then
Exit(lField.DatabaseFieldName);
end;
raise ERQLException.CreateFmt('Property %s does not exist or is transient and cannot be used in RQL',
[RQLPropertyName]);
end;
{ TRQLAbstractSyntaxTree }
constructor TRQLAbstractSyntaxTree.Create;
begin
inherited Create(true);
end;
function TRQLAbstractSyntaxTree.TreeContainsToken(
const aToken: TRQLToken): Boolean;
var
lItem: TRQLCustom;
begin
Result := False;
for lItem in Self do
begin
if lItem.Token = aToken then
Exit(true);
end;
end;
end.