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SynTests.pas
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SynTests.pas
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/// Unit test functions used by Synopse projects
// - this unit is a part of the freeware Synopse mORMot framework,
// licensed under a MPL/GPL/LGPL tri-license; version 1.18
unit SynTests;
(*
This file is part of Synopse framework.
Synopse framework. Copyright (c) Arnaud Bouchez
Synopse Informatique - https://synopse.info
*** BEGIN LICENSE BLOCK *****
Version: MPL 1.1/GPL 2.0/LGPL 2.1
The contents of this file are subject to the Mozilla Public License Version
1.1 (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.mozilla.org/MPL
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
for the specific language governing rights and limitations under the License.
The Original Code is Synopse framework.
The Initial Developer of the Original Code is Arnaud Bouchez.
Portions created by the Initial Developer are Copyright (c)
the Initial Developer. All Rights Reserved.
Contributor(s):
Alternatively, the contents of this file may be used under the terms of
either the GNU General Public License Version 2 or later (the "GPL"), or
the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
in which case the provisions of the GPL or the LGPL are applicable instead
of those above. If you wish to allow use of your version of this file only
under the terms of either the GPL or the LGPL, and not to allow others to
use your version of this file under the terms of the MPL, indicate your
decision by deleting the provisions above and replace them with the notice
and other provisions required by the GPL or the LGPL. If you do not delete
the provisions above, a recipient may use your version of this file under
the terms of any one of the MPL, the GPL or the LGPL.
***** END LICENSE BLOCK *****
*)
{$I Synopse.inc} // define HASINLINE CPU32 CPU64 OWNNORMTOUPPER
interface
uses
{$ifdef MSWINDOWS}
Windows,
Messages,
{$endif}
{$ifdef KYLIX3}
Types,
{$endif}
Classes,
{$ifndef LVCL}
{$ifdef HASINLINE}
Types,
{$endif}
{$endif}
{$ifndef NOVARIANTS}
Variants,
{$endif}
SynCommons,
SynTable,
SynLog,
SysUtils;
{ ************ Unit-Testing classes and functions }
type
/// the prototype of an individual test
// - to be used with TSynTest descendants
TSynTestEvent = procedure of object;
/// allows to tune TSynTest process
// - tcoLogEachCheck will log as sllCustom4 each non void Check() message
TSynTestOption = (tcoLogEachCheck);
/// set of options to tune TSynTest process
TSynTestOptions = set of TSynTestOption;
TSynTest = class;
/// how published method information is stored within TSynTest
TSynTestMethodInfo = record
/// the uncamelcased method name
TestName: string;
/// ready-to-be-displayed 'Ident - TestName' text, as UTF-8
IdentTestName: RawUTF8;
/// raw method name, as defined in pascal code (not uncamelcased)
MethodName: RawUTF8;
/// direct access to the method execution
Method: TSynTestEvent;
/// the test case holding this method
Test: TSynTest;
/// the index of this method in the TSynTestCase
MethodIndex: integer;
end;
/// pointer access to published method information
PSynTestMethodInfo = ^TSynTestMethodInfo;
/// abstract parent class for both tests suit (TSynTests) and cases (TSynTestCase)
// - purpose of this ancestor is to have RTTI for its published methods,
// and to handle a class text identifier, or uncamelcase its class name
// if no identifier was defined
// - sample code about how to use this test framework is available in
// the "Sample\07 - SynTest" folder
TSynTest = class(TSynPersistent)
protected
fTests: array of TSynTestMethodInfo;
fIdent: string;
fInternalTestsCount: integer;
fOptions: TSynTestOptions;
function GetCount: Integer;
function GetIdent: string;
public
/// create the test instance
// - if an identifier is not supplied, the class name is used, after
// T[Syn][Test] left trim and un-camel-case
// - this constructor will add all published methods to the internal
// test list, accessible via the Count/TestName/TestMethod properties
constructor Create(const Ident: string = ''); reintroduce; virtual;
/// register a specified test to this class instance
// - Create will register all published methods of this class, but
// your code may initialize its own set of methods on need
procedure Add(const aMethod: TSynTestEvent; const aMethodName: RawUTF8;
const aIdent: string);
/// the test name
// - either the Ident parameter supplied to the Create() method, either
// a uncameled text from the class name
property Ident: string read GetIdent;
/// return the number of tests associated with this class
// - i.e. the number of registered tests by the Register() method PLUS
// the number of published methods defined within this class
property Count: Integer read GetCount;
/// return the number of published methods defined within this class as tests
// - i.e. the number of tests added by the Create() constructor from RTTI
// - any TestName/TestMethod[] index higher or equal to this value has been
// added by a specific call to the Add() method
property InternalTestsCount: integer read fInternalTestsCount;
/// allows to tune the test case process
property Options: TSynTestOptions read fOptions write fOptions;
published
{ all published methods of the children will be run as individual tests
- these methods must be declared as procedure with no parameter }
end;
TSynTests = class;
/// a class implementing a test case
// - should handle a test unit, i.e. one or more tests
// - individual tests are written in the published methods of this class
TSynTestCase = class(TSynTest)
protected
fOwner: TSynTests;
fAssertions: integer;
fAssertionsFailed: integer;
fAssertionsBeforeRun: integer;
fAssertionsFailedBeforeRun: integer;
/// any number not null assigned to this field will display a "../s" stat
fRunConsoleOccurenceNumber: cardinal;
/// any number not null assigned to this field will display a "using .. MB" stat
fRunConsoleMemoryUsed: Int64;
/// any text assigned to this field will be displayed on console
fRunConsole: string;
fCheckLogTime: TPrecisionTimer;
fCheckLastMsg: cardinal;
fCheckLastTix: cardinal;
/// called before all published methods are executed
procedure Setup; virtual;
/// called after all published methods are executed
// - WARNING: this method should be re-entrant - so using FreeAndNil() is
// a good idea in this method :)
procedure CleanUp; virtual;
/// called before each published methods execution
procedure MethodSetup; virtual;
/// called after each published methods execution
procedure MethodCleanUp; virtual;
procedure AddLog(condition: Boolean; const msg: string);
public
/// create the test case instance
// - must supply a test suit owner
// - if an identifier is not supplied, the class name is used, after
// T[Syn][Test] left trim and un-camel-case
constructor Create(Owner: TSynTests; const Ident: string = ''); reintroduce; virtual;
/// clean up the instance
// - will call CleanUp, even if already done before
destructor Destroy; override;
/// used by the published methods to run a test assertion
// - condition must equals TRUE to pass the test
procedure Check(condition: Boolean; const msg: string = '');
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run a test assertion
// - condition must equals TRUE to pass the test
// - function return TRUE if the condition failed, in order to allow the
// caller to stop testing with such code:
// ! if CheckFailed(A=10) then exit;
function CheckFailed(condition: Boolean; const msg: string = ''): Boolean;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run a test assertion
// - condition must equals FALSE to pass the test
// - function return TRUE if the condition failed, in order to allow the
// caller to stop testing with such code:
// ! if CheckNot(A<>10) then exit;
function CheckNot(condition: Boolean; const msg: string = ''): Boolean;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against integers
// - if a<>b, will fail and include '#<>#' text before the supplied msg
function CheckEqual(a,b: Int64; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against UTF-8 strings
// - if a<>b, will fail and include '#<>#' text before the supplied msg
function CheckEqual(const a,b: RawUTF8; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against pointers/classes
// - if a<>b, will fail and include '#<>#' text before the supplied msg
function CheckEqual(a,b: pointer; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against integers
// - if a=b, will fail and include '#=#' text before the supplied msg
function CheckNotEqual(a,b: Int64; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against UTF-8 strings
// - if a=b, will fail and include '#=#' text before the supplied msg
function CheckNotEqual(const a,b: RawUTF8; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run test assertion against pointers/classes
// - if a=b, will fail and include '#=#' text before the supplied msg
function CheckNotEqual(a,b: pointer; const msg: RawUTF8 = ''): Boolean; overload;
{$ifdef HASINLINE}inline;{$endif}
/// used by the published methods to run a test assertion about two double values
// - includes some optional precision argument
function CheckSame(const Value1,Value2: double;
const Precision: double=DOUBLE_SAME; const msg: string = ''): Boolean;
/// perform a string comparison with several value
// - test passes if (Value=Values[0]) or (Value=Value[1]) or (Value=Values[2])...
// and ExpectedResult=true
function CheckMatchAny(const Value: RawUTF8; const Values: array of RawUTF8;
CaseSentitive: Boolean=true; ExpectedResult: Boolean=true; const msg: string = ''): Boolean;
/// used by the published methods to run a test assertion, with an UTF-8 error message
// - condition must equals TRUE to pass the test
procedure CheckUTF8(condition: Boolean; const msg: RawUTF8); overload;
/// used by the published methods to run a test assertion, with a error
// message computed via FormatUTF8()
// - condition must equals TRUE to pass the test
procedure CheckUTF8(condition: Boolean; const msg: RawUTF8; const args: array of const); overload;
/// used by published methods to start some timing on associated log
// - call this once, before one or several consecutive CheckLogTime()
// - warning: this method is not thread-safe
procedure CheckLogTimeStart;
{$ifdef HASINLINE}inline;{$endif}
/// used by published methods to write some timing on associated log
// - at least one CheckLogTimeStart method call should happen to reset the
// internal timer
// - condition must equals TRUE to pass the test
// - the supplied message would be appended, with its timing
// - warning: this method is not thread-safe
procedure CheckLogTime(condition: boolean;
const msg: RawUTF8; const args: array of const; level: TSynLogInfo=sllTrace);
/// create a temporary string random content, WinAnsi (code page 1252) content
class function RandomString(CharCount: Integer): RawByteString;
/// create a temporary UTF-8 string random content, using WinAnsi
// (code page 1252) content
class function RandomUTF8(CharCount: Integer): RawUTF8;
/// create a temporary UTF-16 string random content, using WinAnsi
// (code page 1252) content
class function RandomUnicode(CharCount: Integer): SynUnicode;
/// create a temporary string random content, using ASCII 7 bit content
class function RandomAnsi7(CharCount: Integer): RawByteString;
/// create a temporary string random content, using A..Z,_,0..9 chars only
class function RandomIdentifier(CharCount: Integer): RawByteString;
/// create a temporary string random content, using uri-compatible chars only
class function RandomURI(CharCount: Integer): RawByteString;
/// create a temporary string, containing some fake text, with paragraphs
class function RandomTextParagraph(WordCount: Integer;
LastPunctuation: AnsiChar='.'; const RandomInclude: RawUTF8=''): RawUTF8;
/// add containing some "bla bli blo blu" fake text, with paragraphs
class procedure AddRandomTextParagraph(WR: TTextWriter; WordCount: Integer;
LastPunctuation: AnsiChar='.'; const RandomInclude: RawUTF8=''; NoLineFeed: boolean=false);
/// this method is triggered internaly - e.g. by Check() - when a test failed
procedure TestFailed(const msg: string);
/// will add to the console a message with a speed estimation
// - speed is computed from the method start
// - returns the number of microsec of the (may be specified) timer
// - OnlyLog will compute and append the info to the log, but not on the console
// - warning: this method is not thread-safe if a local Timer is not specified
function NotifyTestSpeed(const ItemName: string; ItemCount: integer;
SizeInBytes: cardinal=0; Timer: PPrecisionTimer=nil; OnlyLog: boolean=false): TSynMonitorOneMicroSec; overload;
/// will add to the console a formatted message with a speed estimation
function NotifyTestSpeed(const ItemNameFmt: RawUTF8; const ItemNameArgs: array of const;
ItemCount: integer; SizeInBytes: cardinal=0; Timer: PPrecisionTimer=nil; OnlyLog: boolean=false): TSynMonitorOneMicroSec; overload;
/// append some text to the current console
// - OnlyLog will compute and append the info to the log, but not on the console
procedure AddConsole(const msg: string; OnlyLog: boolean=false);
/// the test suit which owns this test case
property Owner: TSynTests read fOwner;
/// the test name
// - either the Ident parameter supplied to the Create() method, either
// an uncameled text from the class name
property Ident: string read GetIdent;
/// the number of assertions (i.e. Check() method call) for this test case
property Assertions: integer read fAssertions;
/// the number of assertions (i.e. Check() method call) for this test case
property AssertionsFailed: integer read fAssertionsFailed;
published
{ all published methods of the children will be run as individual tests
- these methods must be declared as procedure with no parameter
- the method name will be used, after "uncamelcasing", for display }
end;
/// class-reference type (metaclass) of a test case
TSynTestCaseClass = class of TSynTestCase;
/// information about a failed test
TSynTestFailed = record
/// the contextual message associated with this failed test
Error: string;
/// the uncamelcased method name
TestName: string;
/// ready-to-be-displayed 'TestCaseIdent - TestName' text, as UTF-8
IdentTestName: RawUTF8;
end;
TSynTestFaileds = array of TSynTestFailed;
/// a class used to run a suit of test cases
TSynTests = class(TSynTest)
protected
/// any number not null assigned to this field will display a "../sec" stat
fRunConsoleOccurenceNumber: cardinal;
fTestCase: TSynList; // stores TSynTestCaseClass during Run
fAssertions: integer;
fAssertionsFailed: integer;
fCurrentMethodInfo: PSynTestMethodInfo;
fSaveToFile: Text;
fSafe: TSynLocker;
fFailed: TSynTestFaileds;
fFailedCount: integer;
function GetFailedCount: integer;
function GetFailed(Index: integer): TSynTestFailed;
procedure CreateSaveToFile; virtual;
procedure Color(aColor: TConsoleColor);
/// called when a test case failed: default is to add item to fFailed[]
procedure AddFailed(const msg: string); virtual;
/// this method is called before every run
// - default implementation will just return nil
// - can be overridden to implement a per-test case logging for instance
function BeforeRun: IUnknown; virtual;
/// this method is called during the run, after every testcase
// - this implementation just report some minimal data to the console
// by default, but may be overridden to update a real UI or reporting system
// - method implementation can use fCurrentMethodInfo^ to get run context
procedure AfterOneRun; virtual;
public
/// you can put here some text to be displayed at the end of the messages
// - some internal versions, e.g.
// - every line of text must explicitly BEGIN with #13#10
CustomVersions: string;
/// contains the run elapsed time
RunTimer, TestTimer, TotalTimer: TPrecisionTimer;
/// create the test suit
// - if an identifier is not supplied, the class name is used, after
// T[Syn][Test] left trim and un-camel-case
// - this constructor will add all published methods to the internal
// test list, accessible via the Count/TestName/TestMethod properties
constructor Create(const Ident: string = ''); override;
/// finalize the class instance
// - release all registered Test case instance
destructor Destroy; override;
/// you can call this class method to perform all the tests on the Console
// - it will create an instance of the corresponding class, with the
// optional identifier to be supplied to its constructor
// - if the executable was launched with a parameter, it will be used as
// file name for the output - otherwise, tests information will be written
// to the console
// - it will optionally enable full logging during the process
// - a typical use will first assign the same log class for the whole
// framework, if the mORMot.pas unit is to be used - in such case, before
// calling RunAsConsole(), the caller should execute:
// ! TSynLogTestLog := TSQLLog;
// ! TMyTestsClass.RunAsConsole('My Automated Tests',LOG_VERBOSE);
class procedure RunAsConsole(const CustomIdent: string='';
withLogs: TSynLogInfos=[sllLastError,sllError,sllException,sllExceptionOS];
options: TSynTestOptions=[]); virtual;
/// save the debug messages into an external file
// - if no file name is specified, the current Ident is used
procedure SaveToFile(const DestPath: TFileName; const FileName: TFileName='');
/// register a specified Test case from its class name
// - an instance of the supplied class will be created during Run
// - the published methods of the children must call this method in order
// to add test cases
// - example of use (code from a TSynTests published method):
// ! AddCase(TOneTestCase);
procedure AddCase(TestCase: TSynTestCaseClass); overload;
/// register a specified Test case from its class name
// - an instance of the supplied classes will be created during Run
// - the published methods of the children must call this method in order
// to add test cases
// - example of use (code from a TSynTests published method):
// ! AddCase([TOneTestCase]);
procedure AddCase(const TestCase: array of TSynTestCaseClass); overload;
/// call of this method will run all associated tests cases
// - function will return TRUE if all test passed
// - all failed test cases will be added to the Failed[] list - which is
// cleared at the beginning of the run
// - Assertions and AssertionsFailed counter properties are reset and
// computed during the run
// - you may override this method to provide additional information, e.g.
// ! function TMySynTests.Run: Boolean;
// ! begin // need SynSQLite3.pas unit in the uses clause
// ! CustomVersions := format(#13#10#13#10'%s'#13#10' %s'#13#10 +
// ! 'Using mORMot %s'#13#10' %s %s', [OSVersionText, CpuInfoText,
// ! SYNOPSE_FRAMEWORK_FULLVERSION, sqlite3.ClassName, sqlite3.Version]);
// ! result := inherited Run;
// ! end;
function Run: Boolean; virtual;
/// method information currently running
// - is set by Run and available within TTestCase methods
property CurrentMethodInfo: PSynTestMethodInfo read fCurrentMethodInfo;
/// number of failed tests after the last call to the Run method
property FailedCount: integer read GetFailedCount;
/// retrieve the information associated with a failure
property Failed[Index: integer]: TSynTestFailed read GetFailed;
/// the number of assertions (i.e. Check() method call) in all tests
// - this property is set by the Run method above
property Assertions: integer read fAssertions;
/// the number of assertions (i.e. Check() method call) which failed in all tests
// - this property is set by the Run method above
property AssertionsFailed: integer read fAssertionsFailed;
published
{ all published methods of the children will be run as test cases registering
- these methods must be declared as procedure with no parameter
- every method should create a customized TSynTestCase instance,
which will be registered with the AddCase() method, then automaticaly
destroyed during the TSynTests destroy }
end;
/// this overridden class will create a .log file in case of a test case failure
// - inherits from TSynTestsLogged instead of TSynTests in order to add
// logging to your test suite (via a dedicated TSynLogTest instance)
TSynTestsLogged = class(TSynTests)
protected
fLogFile: TSynLog;
fConsoleDup: TTextWriter;
procedure CreateSaveToFile; override;
/// called when a test case failed: log into the file
procedure AddFailed(const msg: string); override;
/// this method is called before every run
// - overridden implementation to implement a per-test case logging
function BeforeRun: IUnknown; override;
public
/// create the test instance and initialize associated LogFile instance
// - this will allow logging of all exceptions to the LogFile
constructor Create(const Ident: string = ''); override;
/// release associated memory
destructor Destroy; override;
/// the .log file generator created if any test case failed
property LogFile: TSynLog read fLogFile;
end;
const
EQUAL_MSG = '%<>% %';
NOTEQUAL_MSG = '%=% %';
implementation
{$ifdef FPC}
{$ifndef MSWINDOWS}
uses
SynFPCLinux;
{$endif}
{$endif}
{ TSynTest }
procedure TSynTest.Add(const aMethod: TSynTestEvent; const aMethodName: RawUTF8;
const aIdent: string);
var n: integer;
begin
if self=nil then
exit; // avoid GPF
n := Length(fTests);
SetLength(fTests,n+1);
with fTests[n] do begin
TestName := aIdent;
IdentTestName := StringToUTF8(fIdent+' - '+TestName);
Method := aMethod;
MethodName := aMethodName;
Test := self;
MethodIndex := n;
end;
end;
constructor TSynTest.Create(const Ident: string);
var id: RawUTF8;
s: string;
methods: TPublishedMethodInfoDynArray;
i: integer;
begin
inherited Create;
if Ident<>'' then
fIdent := Ident else begin
ToText(ClassType,id);
if IdemPChar(Pointer(id),'TSYN') then
if IdemPChar(Pointer(id),'TSYNTEST') then
Delete(id,1,8) else
Delete(id,1,4) else
if IdemPChar(Pointer(id),'TTEST') then
Delete(id,1,5) else
if id[1]='T' then
Delete(id,1,1);
fIdent := string(UnCamelCase(id));
end;
for i := 0 to GetPublishedMethods(self,methods)-1 do
with methods[i] do begin
inc(fInternalTestsCount);
if Name[1]='_' then
s := Ansi7ToString(copy(Name,2,100)) else
s := Ansi7ToString(UnCamelCase(Name));
Add(TSynTestEvent(Method),Name,s);
end;
end;
function TSynTest.GetCount: Integer;
begin
if self=nil then
result := 0 else
result := length(fTests);
end;
function TSynTest.GetIdent: string;
begin
if self=nil then
result := '' else
result := fIdent;
end;
{ TSynTestCase }
constructor TSynTestCase.Create(Owner: TSynTests; const Ident: string);
begin
inherited Create(Ident);
fOwner := Owner;
fOptions := Owner.Options;
end;
procedure TSynTestCase.Setup;
begin
// do nothing by default
end;
procedure TSynTestCase.CleanUp;
begin
// do nothing by default
end;
procedure TSynTestCase.MethodSetup;
begin
// do nothing by default
end;
procedure TSynTestCase.MethodCleanUp;
begin
// do nothing by default
end;
destructor TSynTestCase.Destroy;
begin
CleanUp;
inherited;
end;
procedure TSynTestCase.AddLog(condition: Boolean; const msg: string);
const LEV: array[boolean] of TSynLogInfo = (sllFail, sllCustom4);
var tix, crc: cardinal; // use a crc since strings are not thread-safe
begin
if condition then begin
crc := Hash32(pointer(msg),length(msg)*SizeOf(msg[1]));
if crc=fCheckLastMsg then begin // no need to be too much verbose
tix := GetTickCount64 shr 8; // also avoid to use a lock
if tix=fCheckLastTix then
exit;
fCheckLastTix := tix;
end;
fCheckLastMsg := crc;
end else
fCheckLastMsg := 0;
if fOwner.fCurrentMethodInfo<>nil then
TSynLogTestLog.Add.Log(LEV[condition],'% % [%]',
[ClassType,fOwner.fCurrentMethodInfo^.TestName,msg]);
end;
procedure TSynTestCase.Check(condition: Boolean; const msg: string);
begin
if self=nil then
exit;
if (msg<>'') and (tcoLogEachCheck in fOptions) then
AddLog(condition,msg);
InterlockedIncrement(fAssertions);
if not condition then
TestFailed(msg);
end;
function TSynTestCase.CheckFailed(condition: Boolean; const msg: string): Boolean;
begin
if self=nil then begin
result := false;
exit;
end;
if (msg<>'') and (tcoLogEachCheck in fOptions) then
AddLog(condition,msg);
InterlockedIncrement(fAssertions);
if condition then
result := false else begin
TestFailed(msg);
result := true;
end;
end;
function TSynTestCase.CheckNot(condition: Boolean; const msg: string): Boolean;
begin
result := CheckFailed(not condition, msg);
end;
function TSynTestCase.CheckEqual(a,b: Int64; const msg: RawUTF8): Boolean;
begin
result := a=b;
CheckUTF8(result,EQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckEqual(const a, b: RawUTF8; const msg: RawUTF8): Boolean;
begin
result := a=b;
CheckUTF8(result,EQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckEqual(a,b: pointer; const msg: RawUTF8): Boolean;
begin
result := a=b;
CheckUTF8(result,EQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckNotEqual(a,b: Int64; const msg: RawUTF8): Boolean;
begin
result := a<>b;
CheckUTF8(result,NOTEQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckNotEqual(const a, b: RawUTF8; const msg: RawUTF8): Boolean;
begin
result := a<>b;
CheckUTF8(result,NOTEQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckNotEqual(a,b: pointer; const msg: RawUTF8): Boolean;
begin
result := a<>b;
CheckUTF8(result,NOTEQUAL_MSG,[a,b,msg]);
end;
function TSynTestCase.CheckSame(const Value1, Value2: double;
const Precision: double; const msg: string): Boolean;
begin
result := SameValue(Value1,Value2,Precision);
CheckUTF8(result,EQUAL_MSG,[Value1,Value2,msg]);
end;
function TSynTestCase.CheckMatchAny(const Value: RawUTF8;
const Values: array of RawUTF8; CaseSentitive: Boolean;
ExpectedResult: Boolean; const msg: string): Boolean;
begin
result := (FindRawUTF8(Values,Value,CaseSentitive)>=0)=ExpectedResult;
Check(result);
end;
procedure TSynTestCase.CheckUTF8(condition: Boolean; const msg: RawUTF8);
begin
InterlockedIncrement(fAssertions);
if not condition or (tcoLogEachCheck in fOptions) then
CheckUTF8(condition,'%',[msg]);
end;
procedure TSynTestCase.CheckUTF8(condition: Boolean; const msg: RawUTF8;
const args: array of const);
var str: string; // using a sub-proc may be faster, but unstable on Android
begin
InterlockedIncrement(fAssertions);
if not condition or (tcoLogEachCheck in fOptions) then begin
if msg<>'' then begin
FormatString(msg,args,str);
if tcoLogEachCheck in fOptions then
AddLog(condition,str);
end;
if not condition then
TestFailed(str);
end;
end;
procedure TSynTestCase.CheckLogTimeStart;
begin
fCheckLogTime.Start;
end;
procedure TSynTestCase.CheckLogTime(condition: boolean; const msg: RawUTF8;
const args: array of const; level: TSynLogInfo);
var str: string;
begin
FormatString(msg,args,str);
Check(condition,str);
TSynLogTestLog.Add.Log(level,'% %',[str,fCheckLogTime.Stop],self);
fCheckLogTime.Start;
end;
class function TSynTestCase.RandomString(CharCount: Integer): RawByteString;
var i: PtrInt;
R: PByteArray;
tmp: TSynTempBuffer;
begin
R := tmp.InitRandom(CharCount);
SetString(result,nil,CharCount);
for i := 0 to CharCount-1 do
PByteArray(result)[i] := 32+R[i] and 127;
tmp.Done;
end;
class function TSynTestCase.RandomAnsi7(CharCount: Integer): RawByteString;
var i: PtrInt;
R: PByteArray;
tmp: TSynTempBuffer;
begin
R := tmp.InitRandom(CharCount);
SetString(result,nil,CharCount);
for i := 0 to CharCount-1 do
PByteArray(result)[i] := 32+R[i] mod 94;
tmp.Done;
end;
procedure InitRandom64(chars64: PAnsiChar; count: integer; var result: RawByteString);
var i: PtrInt;
R: PByteArray;
tmp: TSynTempBuffer;
begin
R := tmp.InitRandom(count);
SetString(result,nil,count);
for i := 0 to count-1 do
PByteArray(result)[i] := ord(chars64[PtrInt(R[i]) and 63]);
tmp.Done;
end;
class function TSynTestCase.RandomIdentifier(CharCount: Integer): RawByteString;
const IDENT_CHARS: array[0..63] of AnsiChar =
'ABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789_ABCDEFGHIJKLMNOPQRSTUVWXYZ_';
begin
InitRandom64(@IDENT_CHARS, CharCount, result);
end;
class function TSynTestCase.RandomURI(CharCount: Integer): RawByteString;
const URL_CHARS: array[0..63] of AnsiChar =
'abcdefghijklmnopqrstuvwxyz0123456789-abCdEfGH.JKlmnOP.RsTuVWxyz.';
begin
InitRandom64(@URL_CHARS, CharCount, result);
end;
class function TSynTestCase.RandomUTF8(CharCount: Integer): RawUTF8;
begin
result := WinAnsiToUtf8(WinAnsiString(RandomString(CharCount)));
end;
class function TSynTestCase.RandomUnicode(CharCount: Integer): SynUnicode;
begin
result := WinAnsiConvert.AnsiToUnicodeString(RandomString(CharCount));
end;
class function TSynTestCase.RandomTextParagraph(WordCount: Integer;
LastPunctuation: AnsiChar; const RandomInclude: RawUTF8): RawUTF8;
var
tmp: TTextWriterStackBuffer;
WR: TTextWriter;
begin
WR := TTextWriter.CreateOwnedStream(tmp);
try
AddRandomTextParagraph(WR, WordCount, LastPunctuation, RandomInclude);
WR.SetText(result);
finally
WR.Free;
end;
end;
class procedure TSynTestCase.AddRandomTextParagraph(WR: TTextWriter; WordCount: Integer;
LastPunctuation: AnsiChar; const RandomInclude: RawUTF8; NoLineFeed: boolean);
type TKind = (space, comma, dot, question, paragraph);
const bla: array[0..7] of string[3]=('bla','ble','bli','blo','blu','bla','bli','blo');
endKind = [dot,paragraph,question];
var n: integer;
s: string[3];
last: TKind;
rnd: cardinal;
begin
last := paragraph;
while WordCount>0 do begin
rnd := Random32gsl; // get 32-bit of randomness
for n := 0 to rnd and 3 do begin // consume up to 20-bit from rnd
rnd := rnd shr 2;
s := bla[rnd and 7];
rnd := rnd shr 3;
if last in endKind then begin
last := space;
s[1] := NormToUpper[s[1]];
end;
WR.AddShort(s);
WR.Add(' ');
dec(WordCount);
end;
WR.CancelLastChar(' ');
case rnd and 127 of // consume 7-bit
0..4: begin
if RandomInclude<>'' then begin
WR.Add(' ');
WR.AddString(RandomInclude);
end;
last := space;
end;
5..65: last := space;
66..90: last := comma;
91..105: last := dot;
106..115: last := question;
116..127: if NoLineFeed then last := dot else last := paragraph;
end;
case last of
space: WR.Add(' ');
comma: WR.Add(',',' ');
dot: WR.Add('.',' ');
question: WR.Add('?',' ');
paragraph: WR.AddShort('.'#13#10);
end;
end;
if not(last in endKind) and (LastPunctuation<>' ') then begin
WR.AddShort('bla');
WR.Add(LastPunctuation);
end;
end;
procedure TSynTestCase.TestFailed(const msg: string);
begin
fOwner.fSafe.Lock; // protect when Check() is done from multiple threads
try
TSynLogTestLog.DebuggerNotify(sllFail,'#% %',[fAssertions-fAssertionsBeforeRun,msg]);
if Owner<>nil then // avoid GPF
Owner.AddFailed(msg);
inc(fAssertionsFailed);
finally
fOwner.fSafe.UnLock;
end;
end;
procedure TSynTestCase.AddConsole(const msg: string; OnlyLog: boolean);
begin
TSynLogTestLog.Add.Log(sllMonitoring, '% %', [ClassType, msg]);
if OnlyLog then
exit;
fOwner.fSafe.Lock;
try
if fRunConsole<>'' then
fRunConsole := fRunConsole+#13#10' '+msg else
fRunConsole := fRunConsole+msg;
finally
fOwner.fSafe.UnLock;
end;
end;
function TSynTestCase.NotifyTestSpeed(const ItemName: string; ItemCount: integer;
SizeInBytes: cardinal; Timer: PPrecisionTimer; OnlyLog: boolean): TSynMonitorOneMicroSec;
var Temp: TPrecisionTimer;
msg: string;
begin
if Timer=nil then
Temp := Owner.TestTimer else
Temp := Timer^;
if ItemCount<=1 then
FormatString('% in %',[ItemName,Temp.Stop],msg) else
FormatString('% % in % i.e. %/s, aver. %',[ItemCount,ItemName,Temp.Stop,
IntToThousandString(Temp.PerSec(ItemCount)),Temp.ByCount(ItemCount)],msg);
if SizeInBytes>0 then
msg := FormatString('%, %/s',[msg,KB(Temp.PerSec(SizeInBytes))]);
AddConsole(msg,OnlyLog);
result := Temp.TimeInMicroSec;
end;
function TSynTestCase.NotifyTestSpeed(const ItemNameFmt: RawUTF8; const ItemNameArgs: array of const;
ItemCount: integer; SizeInBytes: cardinal; Timer: PPrecisionTimer; OnlyLog: boolean): TSynMonitorOneMicroSec;
var str: string;
begin
FormatString(ItemNameFmt,ItemNameArgs,str);
result := NotifyTestSpeed(str,ItemCount,SizeInBytes,Timer,OnlyLog);
end;
{ TSynTests }
procedure TSynTests.AddCase(const TestCase: array of TSynTestCaseClass);
var i: integer;
begin
for i := low(TestCase) to high(TestCase) do
fTestCase.Add(TestCase[i]);
end;
procedure TSynTests.AddCase(TestCase: TSynTestCaseClass);
begin
fTestCase.Add(TestCase);
end;
function TSynTests.BeforeRun: IUnknown;
begin
result := nil;
end;
constructor TSynTests.Create(const Ident: string);
begin
inherited Create(Ident);
fTestCase := TSynList.Create;
fSafe.Init;
end;
destructor TSynTests.Destroy;
begin
fTestCase.Free;
if TTextRec(fSaveToFile).Handle<>0 then
Close(fSaveToFile);
inherited Destroy;
fSafe.Done;
end;
{$I-}
procedure TSynTests.Color(aColor: TConsoleColor);
begin
if (StdOut<>0) and (THandle(TTextRec(fSaveToFile).Handle)=StdOut) then
TextColor(aColor);
end;
procedure TSynTests.CreateSaveToFile;
begin
System.Assign(fSaveToFile,'');
Rewrite(fSaveToFile);
{$ifndef MSWINDOWS}
TTextRec(fSaveToFile).LineEnd := #13#10;
{$endif}
StdOut := TTextRec(fSaveToFile).Handle;
end;
procedure TSynTests.AddFailed(const msg: string);
begin
if fFailedCount=length(fFailed) then
SetLength(fFailed,NextGrow(fFailedCount));
with fFailed[fFailedCount] do begin
Error := msg;
if fCurrentMethodInfo<>nil then begin
TestName := fCurrentMethodInfo^.TestName;
IdentTestName := fCurrentMethodInfo^.IdentTestName;
end;
end;
inc(fFailedCount);
end;
function TSynTests.GetFailed(Index: integer): TSynTestFailed;
begin
if (self=nil) or (cardinal(Index)>=cardinal(fFailedCount)) then
Finalize(result) else
result := fFailed[index];
end;
function TSynTests.GetFailedCount: integer;
begin
if self=nil then
result := 0 else
result := fFailedCount;
end;
function TSynTests.Run: Boolean;
var i,t,m: integer;
Elapsed, Version: RawUTF8;
err: string;
C: TSynTestCase;
log: IUnknown;
begin
if TTextRec(fSaveToFile).Handle=0 then
CreateSaveToFile;
Color(ccLightCyan);
Writeln(fSaveToFile,#13#10' ',Ident,#13#10' ',StringOfChar('-',length(Ident)+2));
RunTimer.Start;