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[d2df-sdl.git] / src / shared / xdynrec.pas
1 (* Copyright (C) Doom 2D: Forever Developers
2 *
3 * This program is free software: you can redistribute it and/or modify
4 * it under the terms of the GNU General Public License as published by
5 * the Free Software Foundation, version 3 of the License ONLY.
6 *
7 * This program is distributed in the hope that it will be useful,
8 * but WITHOUT ANY WARRANTY; without even the implied warranty of
9 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
10 * GNU General Public License for more details.
11 *
12 * You should have received a copy of the GNU General Public License
13 * along with this program. If not, see <http://www.gnu.org/licenses/>.
14 *)
15 {$INCLUDE a_modes.inc}
16 {.$DEFINE XDYNREC_USE_FIELDHASH} // actually, it is SLOWER with this
17 unit xdynrec;
19 interface
21 uses
22 SysUtils, Variants, Classes,
23 {$IFDEF USE_MEMPOOL}mempool,{$ENDIF}
24 xparser, xstreams, utils, hashtable;
27 // ////////////////////////////////////////////////////////////////////////// //
28 type
29 TDynRecException = class(Exception)
30 public
31 constructor Create (const amsg: AnsiString);
32 constructor CreateFmt (const afmt: AnsiString; const args: array of const);
33 end;
35 TDynParseException = class(TDynRecException)
36 public
37 tokLine, tokCol: Integer;
39 public
40 constructor Create (pr: TTextParser; const amsg: AnsiString);
41 constructor CreateFmt (pr: TTextParser; const afmt: AnsiString; const args: array of const);
42 end;
45 // ////////////////////////////////////////////////////////////////////////// //
46 type
47 TDynMapDef = class;
48 TDynRecord = class;
49 TDynField = class;
50 TDynEBS = class;
52 TDynFieldList = specialize TSimpleList<TDynField>;
53 TDynRecList = specialize TSimpleList<TDynRecord>;
54 TDynEBSList = specialize TSimpleList<TDynEBS>;
56 // this is base type for all scalars (and arrays)
57 TDynField = class{$IFDEF USE_MEMPOOL}(TPoolObject){$ENDIF}
58 public
59 type
60 TType = (TBool, TChar, TByte, TUByte, TShort, TUShort, TInt, TUInt, TString, TPoint, TSize, TColor, TList, TTrigData);
61 // TPoint: pair of Integers
62 // TSize: pair of UShorts
63 // TList: actually, array of records
64 // TTrigData: array of mMaxDim bytes, but internally a record (mRecRef)
65 // in binary: arrays of chars are pascal shortstrings (with counter in the first byte)
67 private
68 type
69 TEBS = (TNone, TRec, TEnum, TBitSet);
71 private
72 mOwner: TDynRecord; // owner record
73 mName: AnsiString; // field name
74 mTip: AnsiString; // short tip
75 mHelp: AnsiString; // long help
76 mType: TType; // field type
77 mIVal: Integer; // for all integer types
78 mIVal2: Integer; // for point and size
79 mIVal3: Integer; // for TColor
80 mIVal4: Integer; // for TColor
81 mSVal: AnsiString; // string; for byte and char arrays
82 mRVal: TDynRecList; // for list
83 mRHash: THashStrInt; // id -> index in mRVal
84 mRecRef: TDynRecord; // for TEBS.TRec
85 mMaxDim: Integer; // for byte and char arrays; <0: not an array; 0: impossible value
86 mBinOfs: Integer; // offset in binary; <0 - none
87 mSepPosSize: Boolean; // for points and sizes, use separate fields
88 mAsT: Boolean; // for points and sizes, use separate fields, names starts with `t`
89 mDefined: Boolean;
90 mHasDefault: Boolean;
91 mWriteDef: Boolean;
92 mInternal: Boolean;
93 mNegBool: Boolean;
94 mBitSetUnique: Boolean; // bitset can contain only one value
95 mAsMonsterId: Boolean; // special hack for triggers: monster record number+1 in binary (so 0 means "none")
96 // default value
97 mDefUnparsed: AnsiString;
98 mDefSVal: AnsiString; // default string value
99 mDefIVal, mDefIVal2, mDefIVal3, mDefIVal4: Integer; // default integer values
100 mDefRecRef: TDynRecord;
101 mEBS: TEBS; // complex type type
102 mEBSTypeName: AnsiString; // name of enum, bitset or record
103 mEBSType: TObject; // either TDynRecord or TDynEBS; nil means "simple type"; nil for `TTrigData` too
105 // for binary parser
106 mRecRefId: AnsiString;
108 // for userdata
109 mTagInt: Integer;
110 mTagPtr: Pointer;
112 // for pasgen
113 mAlias: AnsiString;
115 private
116 procedure cleanup ();
118 procedure parseDefaultValue (); // parse `mDefUnparsed` to `mDefSVal`, `mDefIVal`, `mDefIVal2`, `mDefRecRef`
119 procedure fixDefaultValue (); // this will NOT clone `mDefRecRef`
120 function isDefaultValue (): Boolean;
122 function getListCount (): Integer; inline;
123 function getListItem (idx: Integer): TDynRecord; inline; overload;
124 function getListItem (const aname: AnsiString): TDynRecord; inline; overload;
126 function getRecRefIndex (): Integer;
128 function getVar (): Variant;
129 procedure setVar (val: Variant);
131 procedure setRecRef (arec: TDynRecord);
133 procedure parseDef (pr: TTextParser); // parse mapdef definition
134 function definition (): AnsiString; // generate mapdef definition
136 protected
137 // returns `true` for duplicate record id
138 function addListItem (rec: TDynRecord): Boolean; inline;
139 function removeListItem (const aid: AnsiString): TDynRecord; // returns nil or removed record
141 public
142 // get string name for the given type
143 class function getTypeName (t: TType): AnsiString;
145 public
146 constructor Create (const aname: AnsiString; atype: TType);
147 constructor Create (const aname: AnsiString; val: Variant);
148 constructor Create (pr: TTextParser);
149 destructor Destroy (); override;
151 // clone this field; register all list records in `registerIn`
152 // "registration" is required to manage record lifetime; use header record if in doubt
153 // owner will be set to `newOwner`, if it is not `nil`, or to `owner`
154 // for lists, cloning will clone all list members
155 function clone (newOwner: TDynRecord=nil; registerIn: TDynRecord=nil): TDynField;
157 // compare field values (including trigdata)
158 // WARNING: won't work for lists
159 function isSimpleEqu (fld: TDynField): Boolean;
161 // parse string value to appropriate type and set new field value
162 procedure setValue (const s: AnsiString);
164 // supports `for rec in field do` (for lists)
165 function GetEnumerator (): TDynRecList.TEnumerator; inline;
167 function getRed (): Integer; inline;
168 procedure setRed (v: Integer); inline;
170 function getGreen (): Integer; inline;
171 procedure setGreen (v: Integer); inline;
173 function getBlue (): Integer; inline;
174 procedure setBlue (v: Integer); inline;
176 function getAlpha (): Integer; inline;
177 procedure setAlpha (v: Integer); inline;
179 public
180 // text parser and writer
181 procedure parseValue (pr: TTextParser);
182 procedure writeTo (wr: TTextWriter);
184 // binary parser and writer (DO NOT USE!)
185 procedure parseBinValue (st: TStream);
186 procedure writeBinTo (var hasLostData: Boolean; st: TStream);
188 public
189 // the following functions are here only for 'mapgen'! DO NOT USE!
190 // build "alias name" for pascal code
191 function palias (firstUp: Boolean=false): AnsiString;
193 public
194 property owner: TDynRecord read mOwner;
195 property name: AnsiString read mName; // field name
196 property baseType: TType read mType; // field type (base for arrays)
197 property defined: Boolean read mDefined; // was field value set to something by external code?
198 property internal: Boolean read mInternal write mInternal; // internal field?
199 property ival: Integer read mIVal; // integer value for int field (for speed), first field (x/w) for `TPoint` and `TSize`
200 property ival2: Integer read mIVal2; // for `TPoint` and `TSize`, this is second field (y/h)
201 property ival3: Integer read mIVal3; // for `TColor`: blue
202 property ival4: Integer read mIVal4; // for `TColor`: alpha
203 property red: Integer read getRed write setRed; // for `TColor`: red
204 property green: Integer read getGreen write setGreen; // for `TColor`: green
205 property blue: Integer read getBlue write setBlue; // for `TColor`: blue
206 property alpha: Integer read getAlpha write setAlpha; // for `TColor`: alpha
207 property sval: AnsiString read mSVal; // string value for string field (for speed)
208 property hasDefault: Boolean read mHasDefault; // `true` if this field has default value in mapdef
209 property defsval: AnsiString read mDefSVal; // string representation of default value
210 property ebs: TEBS read mEBS; // what kind of reference is this? none, enum, bitset, record
211 property ebstype: TObject read mEBSType; // reference type (nil, TDynRecord, TDynEBS); WARNING: don't modify type!
212 property ebstypename: AnsiString read mEBSTypeName; // enum/bitset name
213 property recref: TDynRecord read mRecRef write setRecRef; // referenced record (actual one, you can modify it)
214 property recrefIndex: Integer read getRecRefIndex; // index of referenced record in header; -1: not found
215 // for record lists
216 property count: Integer read getListCount;
217 property itemAt[idx: Integer]: TDynRecord read getListItem;
218 property item[const aname: AnsiString]: TDynRecord read getListItem; default; // alas, FPC 3+ lost property overloading feature
219 // field value as Variant
220 property value: Variant read getVar write setVar;
222 property tip: AnsiString read mTip;
223 property help: AnsiString read mHelp;
225 public
226 // userdata (you can use these properties as you want to; they won't be written or read to files)
227 property tagInt: Integer read mTagInt write mTagInt;
228 property tagPtr: Pointer read mTagPtr write mTagPtr;
230 public
231 // the following properties are here only for 'mapgen'! DO NOT USE!
232 property negbool: Boolean read mNegBool;
233 property hasTPrefix: Boolean read mAsT;
234 property separatePasFields: Boolean read mSepPosSize;
235 property binOfs: Integer read mBinOfs;
236 property equToDefault: Boolean read isDefaultValue;
237 end;
240 // record, either with actual values, or with type definitions
241 TDynRecord = class{$IFDEF USE_MEMPOOL}(TPoolObject){$ENDIF}
242 private
243 mOwner: TDynMapDef;
244 mId: AnsiString;
245 mTypeName: AnsiString;
246 mTip: AnsiString; // short tip
247 mHelp: AnsiString; // long help
248 mSize: Integer;
249 mFields: TDynFieldList;
250 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
251 mFieldsHash: THashStrInt; // id -> index in mRVal
252 {$ENDIF}
253 mTrigTypes: array of AnsiString; // if this is triggerdata, we'll hold list of triggers here
254 mHeader: Boolean; // true for header record
255 mBinBlock: Integer; // -1: none
256 mHeaderRec: TDynRecord; // for "value" records this is header record with data, for "type" records this is header type record
258 // for userdata
259 mTagInt: Integer;
260 mTagPtr: Pointer;
262 mRec2Free: TDynRecList;
264 private
265 procedure parseDef (pr: TTextParser); // parse definition
266 function definition (): AnsiString;
268 function findByName (const aname: AnsiString): Integer; inline;
269 function hasByName (const aname: AnsiString): Boolean; inline;
270 function getFieldByName (const aname: AnsiString): TDynField; inline;
271 function getFieldAt (idx: Integer): TDynField; inline;
272 function getCount (): Integer; inline;
274 function getIsTrigData (): Boolean; inline;
275 function getIsForTrig (const aname: AnsiString): Boolean; inline;
277 function getForTrigCount (): Integer; inline;
278 function getForTrigAt (idx: Integer): AnsiString; inline;
280 procedure regrec (rec: TDynRecord);
282 function getUserVar (const aname: AnsiString): Variant;
283 procedure setUserVar (const aname: AnsiString; val: Variant);
285 procedure clearRefRecs (rec: TDynRecord);
287 protected
288 function findRecordByTypeId (const atypename, aid: AnsiString): TDynRecord;
289 function findRecordNumByType (const atypename: AnsiString; rc: TDynRecord): Integer;
290 function addRecordByType (const atypename: AnsiString; rc: TDynRecord): Boolean; // `true`: duplicate record id
292 procedure addField (fld: TDynField); inline;
293 function addFieldChecked (fld: TDynField): Boolean; inline; // `true`: duplicate name
295 public
296 constructor Create ();
297 constructor Create (pr: TTextParser); // parse definition
298 destructor Destroy (); override;
300 // clone this record; register all list records in `registerIn`
301 // "registration" is required to manage record lifetime; use header record if in doubt
302 // all fields are cloned too
303 function clone (registerIn: TDynRecord): TDynRecord;
305 // compare records (values of all fields, including trigdata)
306 // WARNING: won't work for records with list fields
307 function isSimpleEqu (rec: TDynRecord): Boolean;
309 // find field with `TriggerType` type
310 function trigTypeField (): TDynField;
312 // number of records of the given instance
313 function instanceCount (const atypename: AnsiString): Integer;
315 // only for headers: create new record with the given type
316 // will return cloned record ready for use, or `nil` on unknown type name
317 // `aid` must not be empty, and must be unique
318 function newTypedRecord (const atypename, aid: AnsiString): TDynRecord;
320 // remove record with the given type and id
321 // return `true` if record was successfully found and removed
322 // this will do all necessary recref cleanup too
323 // WARNING: not tested yet
324 function removeTypedRecord (const atypename, aid: AnsiString): Boolean;
326 //TODO:
327 // [.] API to create triggers
328 // [.] API to properly remove triggers (remove trigdata)
329 // [.] check if `removeTypedRecord()` does the right thing with inline records
330 // [.] for fields: assigning `recref` should remove previously assigned inline record (record without id)
331 // [.] other API i forgot
333 public
334 // text parser
335 // `beginEaten`: `true` if "{" was eaten
336 procedure parseValue (pr: TTextParser; beginEaten: Boolean=false);
338 // text writer
339 // `putHeader`: `true` to write complete header, otherwise only "{...}"
340 procedure writeTo (wr: TTextWriter; putHeader: Boolean=true);
342 // binary parser and writer (DO NOT USE!)
343 procedure parseBinValue (st: TStream; forceData: Boolean=false);
344 procedure writeBinTo (var hasLostData: Boolean; st: TStream; trigbufsz: Integer=-1; onlyFields: Boolean=false);
346 public
347 property mapdef: TDynMapDef read mOwner;
348 property id: AnsiString read mId; // record id in text map
349 property typeName: AnsiString read mTypeName; // record type name (like "panel", or "trigger")
350 property has[const aname: AnsiString]: Boolean read hasByName; // do we have field with the given name?
351 property count: Integer read getCount; // number of fields in this record
352 property field[const aname: AnsiString]: TDynField read getFieldByName; default; // get field by name
353 property fieldAt[idx: Integer]: TDynField read getFieldAt; // get field at the given index
354 property isTrigData: Boolean read getIsTrigData; // is this special "TriggerData" record?
355 property isForTrig[const aname: AnsiString]: Boolean read getIsForTrig; // can this "TriggerData" be used for the trigger with the given type?
356 property forTrigCount: Integer read getForTrigCount; // number of trigger type names for "TriggerData"
357 property forTrigAt[idx: Integer]: AnsiString read getForTrigAt; // trigger type name at the given index for "TriggerData"
358 property headerRec: TDynRecord read mHeaderRec; // get header record for this one (header contains all other records, enums, bitsets, etc.)
359 property isHeader: Boolean read mHeader; // is this a header record?
361 property tip: AnsiString read mTip;
362 property help: AnsiString read mHelp;
364 public
365 // user fields; user can add arbitrary custom fields
366 // by default, any user field will be marked as "internal"
367 // note: you can use this to manipulate non-user fields too
368 property user[const aname: AnsiString]: Variant read getUserVar write setUserVar;
370 public
371 // userdata (you can use these properties as you want to; they won't be written or read to files)
372 property tagInt: Integer read mTagInt write mTagInt;
373 property tagPtr: Pointer read mTagPtr write mTagPtr;
374 end;
377 // bitset/enum definition
378 TDynEBS = class{$IFDEF USE_MEMPOOL}(TPoolObject){$ENDIF}
379 private
380 mOwner: TDynMapDef;
381 mIsEnum: Boolean;
382 mTypeName: AnsiString;
383 mTip: AnsiString; // short tip
384 mHelp: AnsiString; // long help
385 mIds: array of AnsiString;
386 mVals: array of Integer;
387 mMaxName: AnsiString; // MAX field
388 mMaxVal: Integer; // max value
390 private
391 procedure cleanup ();
393 procedure parseDef (pr: TTextParser); // parse definition
395 function findByName (const aname: AnsiString): Integer; inline;
396 function hasByName (const aname: AnsiString): Boolean; inline;
397 function getFieldByName (const aname: AnsiString): Integer; inline;
399 function definition (): AnsiString;
400 function pasdef (): AnsiString;
402 public
403 constructor Create (pr: TTextParser); // parse definition
404 destructor Destroy (); override;
406 // find name for the given value
407 // return empty string if not found
408 function nameByValue (v: Integer): AnsiString;
410 public
411 property mapdef: TDynMapDef read mOwner;
412 property typeName: AnsiString read mTypeName; // enum/bitset type name
413 property isEnum: Boolean read mIsEnum; // is this enum? `false` means "bitset"
414 property has[const aname: AnsiString]: Boolean read hasByName;
415 property field[const aname: AnsiString]: Integer read getFieldByName; default;
417 property tip: AnsiString read mTip;
418 property help: AnsiString read mHelp;
419 end;
422 // parsed "mapdef.txt"
423 TDynMapDef = class{$IFDEF USE_MEMPOOL}(TPoolObject){$ENDIF}
424 public
425 recTypes: TDynRecList; // [0] is always header
426 trigTypes: TDynRecList; // trigdata
427 ebsTypes: TDynEBSList; // enums, bitsets
429 private
430 procedure parseDef (pr: TTextParser);
432 function getHeaderRecType (): TDynRecord; inline;
434 function getRecTypeCount (): Integer; inline;
435 function getRecTypeAt (idx: Integer): TDynRecord; inline;
437 function getEBSTypeCount (): Integer; inline;
438 function getEBSTypeAt (idx: Integer): TDynEBS; inline;
440 function getTrigTypeCount (): Integer; inline;
441 function getTrigTypeAt (idx: Integer): TDynRecord; inline;
443 // creates new header record
444 function parseTextMap (pr: TTextParser): TDynRecord;
446 // creates new header record
447 function parseBinMap (st: TStream): TDynRecord;
449 public
450 constructor Create (pr: TTextParser); // parses data definition
451 destructor Destroy (); override;
453 function findRecType (const aname: AnsiString): TDynRecord;
454 function findTrigFor (const aname: AnsiString): TDynRecord;
455 function findEBSType (const aname: AnsiString): TDynEBS;
457 public
458 // parse text or binary map, return new header record
459 // WARNING! stream must be seekable
460 function parseMap (st: TStream; wasBinary: PBoolean=nil): TDynRecord;
462 // returns `true` if the given stream can be a map file
463 // stream position is 0 on return
464 // WARNING! stream must be seekable
465 class function canBeMap (st: TStream): Boolean;
467 public
468 // the following functions are here only for 'mapgen'! DO NOT USE!
469 function pasdefconst (): AnsiString;
471 public
472 property headerType: TDynRecord read getHeaderRecType;
473 // for record types
474 property recTypeCount: Integer read getRecTypeCount;
475 property recTypeAt[idx: Integer]: TDynRecord read getRecTypeAt;
476 property recType[const aname: AnsiString]: TDynRecord read findRecType;
477 // for enum/bitset types
478 property ebsTypeCount: Integer read getEBSTypeCount;
479 property ebsTypeAt[idx: Integer]: TDynEBS read getEBSTypeAt;
480 property ebsType[const aname: AnsiString]: TDynEBS read findEBSType;
481 // for trigtypes
482 property trigTypeCount: Integer read getTrigTypeCount;
483 property trigTypeAt[idx: Integer]: TDynRecord read getTrigTypeAt;
484 property trigTypeFor[const aname: AnsiString]: TDynRecord read findTrigFor;
485 end;
488 {$IF DEFINED(D2D_DYNREC_PROFILER)}
489 procedure xdynDumpProfiles ();
490 {$ENDIF}
492 var
493 DynWarningCB: procedure (const msg: AnsiString; line, col: Integer) = nil;
495 implementation
497 {$IF DEFINED(D2D_DYNREC_PROFILER)}
498 uses
499 xprofiler;
500 {$ENDIF}
503 // ////////////////////////////////////////////////////////////////////////// //
504 function StrEqu (const a, b: AnsiString): Boolean; inline; begin result := (a = b); end;
507 // ////////////////////////////////////////////////////////////////////////// //
508 constructor TDynRecException.Create (const amsg: AnsiString);
509 begin
510 inherited Create(amsg);
511 end;
513 constructor TDynRecException.CreateFmt (const afmt: AnsiString; const args: array of const);
514 begin
515 inherited Create(formatstrf(afmt, args));
516 end;
519 // ////////////////////////////////////////////////////////////////////////// //
520 constructor TDynParseException.Create (pr: TTextParser; const amsg: AnsiString);
521 begin
522 if (pr <> nil) then begin tokLine := pr.tokLine; tokCol := pr.tokCol; end else begin tokLine := 0; tokCol := 0; end;
523 inherited Create(amsg);
524 end;
526 constructor TDynParseException.CreateFmt (pr: TTextParser; const afmt: AnsiString; const args: array of const);
527 begin
528 if (pr <> nil) then begin tokLine := pr.tokLine; tokCol := pr.tokCol; end else begin tokLine := 0; tokCol := 0; end;
529 inherited Create(formatstrf(afmt, args));
530 end;
533 // ////////////////////////////////////////////////////////////////////////// //
534 function TDynField.GetEnumerator (): TDynRecList.TEnumerator; inline;
535 begin
536 //result := TListEnumerator.Create(mRVal);
537 if (mRVal <> nil) then result := mRVal.GetEnumerator else result := TDynRecList.TEnumerator.Create(nil, 0);
538 end;
541 // ////////////////////////////////////////////////////////////////////////// //
542 constructor TDynField.Create (const aname: AnsiString; atype: TType);
543 begin
544 mRVal := nil;
545 mRecRef := nil;
546 mRHash := nil;
547 cleanup();
548 mName := aname;
549 mType := atype;
550 if (mType = TType.TList) then
551 begin
552 mRVal := TDynRecList.Create();
553 mRHash := THashStrInt.Create();
554 end;
555 end;
558 constructor TDynField.Create (pr: TTextParser);
559 begin
560 cleanup();
561 parseDef(pr);
562 end;
565 constructor TDynField.Create (const aname: AnsiString; val: Variant);
566 procedure setInt32 (v: LongInt);
567 begin
568 case mType of
569 TType.TBool:
570 if (v = 0) then mIVal := 0
571 else if (v = 1) then mIVal := 1
572 else raise TDynRecException.Create('cannot convert shortint variant to field value');
573 TType.TByte:
574 if (v >= -128) and (v <= 127) then mIVal := v
575 else raise TDynRecException.Create('cannot convert shortint variant to field value');
576 TType.TUByte:
577 if (v >= 0) and (v <= 255) then mIVal := v
578 else raise TDynRecException.Create('cannot convert shortint variant to field value');
579 TType.TShort:
580 if (v >= -32768) and (v <= 32767) then mIVal := v
581 else raise TDynRecException.Create('cannot convert shortint variant to field value');
582 TType.TUShort:
583 if (v >= 0) and (v <= 65535) then mIVal := v
584 else raise TDynRecException.Create('cannot convert shortint variant to field value');
585 TType.TInt:
586 mIVal := v;
587 TType.TUInt:
588 mIVal := v;
589 TType.TString:
590 mSVal := formatstrf('%s', [v]);
591 else
592 raise TDynRecException.Create('cannot convert integral variant to field value');
593 end;
594 end;
595 begin
596 mRVal := nil;
597 mRecRef := nil;
598 mRHash := nil;
599 cleanup();
600 mName := aname;
601 case varType(val) of
602 varEmpty: raise TDynRecException.Create('cannot convert empty variant to field value');
603 varNull: raise TDynRecException.Create('cannot convert null variant to field value');
604 varSingle: raise TDynRecException.Create('cannot convert single variant to field value');
605 varDouble: raise TDynRecException.Create('cannot convert double variant to field value');
606 varDecimal: raise TDynRecException.Create('cannot convert decimal variant to field value');
607 varCurrency: raise TDynRecException.Create('cannot convert currency variant to field value');
608 varDate: raise TDynRecException.Create('cannot convert date variant to field value');
609 varOleStr: raise TDynRecException.Create('cannot convert olestr variant to field value');
610 varStrArg: raise TDynRecException.Create('cannot convert stdarg variant to field value');
611 varString: mType := TType.TString;
612 varDispatch: raise TDynRecException.Create('cannot convert dispatch variant to field value');
613 varBoolean: mType := TType.TBool;
614 varVariant: raise TDynRecException.Create('cannot convert variant variant to field value');
615 varUnknown: raise TDynRecException.Create('cannot convert unknown variant to field value');
616 varByte: mType := TType.TUByte;
617 varWord: mType := TType.TUShort;
618 varShortInt: mType := TType.TByte;
619 varSmallint: mType := TType.TShort;
620 varInteger: mType := TType.TInt;
621 varInt64: raise TDynRecException.Create('cannot convert int64 variant to field value');
622 varLongWord: raise TDynRecException.Create('cannot convert longword variant to field value');
623 varQWord: raise TDynRecException.Create('cannot convert uint64 variant to field value');
624 varError: raise TDynRecException.Create('cannot convert error variant to field value');
625 else raise TDynRecException.Create('cannot convert undetermined variant to field value');
626 end;
627 value := val;
628 end;
631 destructor TDynField.Destroy ();
632 begin
633 cleanup();
634 inherited;
635 end;
638 procedure TDynField.cleanup ();
639 begin
640 mName := '';
641 mTip := '';
642 mHelp := '';
643 mType := TType.TInt;
644 mIVal := 0;
645 mIVal2 := 0;
646 mIVal3 := 0;
647 mIVal4 := 0; // default alpha value
648 mSVal := '';
649 mRVal.Free();
650 mRVal := nil;
651 mRHash.Free();
652 mRHash := nil;
653 mRecRef := nil;
654 mMaxDim := -1;
655 mBinOfs := -1;
656 mSepPosSize := false;
657 mAsT := false;
658 mHasDefault := false;
659 mDefined := false;
660 mWriteDef := false;
661 mInternal := true;
662 mDefUnparsed := '';
663 mDefSVal := '';
664 mDefIVal := 0;
665 mDefIVal2 := 0;
666 mDefIVal3 := 0;
667 mDefIVal4 := 0; // default value for alpha
668 mDefRecRef := nil;
669 mEBS := TEBS.TNone;
670 mEBSTypeName := '';
671 mEBSType := nil;
672 mBitSetUnique := false;
673 mAsMonsterId := false;
674 mNegBool := false;
675 mRecRefId := '';
676 mTagInt := 0;
677 mTagPtr := nil;
678 mAlias := '';
679 end;
682 function TDynField.clone (newOwner: TDynRecord=nil; registerIn: TDynRecord=nil): TDynField;
683 var
684 rec: TDynRecord;
685 begin
686 result := TDynField.Create(mName, mType);
687 result.mOwner := mOwner;
688 if (newOwner <> nil) then result.mOwner := newOwner else result.mOwner := mOwner;
689 result.mName := mName;
690 result.mTip := mTip;
691 result.mHelp := mHelp;
692 result.mType := mType;
693 result.mIVal := mIVal;
694 result.mIVal2 := mIVal2;
695 result.mIVal3 := mIVal3;
696 result.mIVal4 := mIVal4;
697 result.mSVal := mSVal;
698 if (mRVal <> nil) then
699 begin
700 if (result.mRVal = nil) then result.mRVal := TDynRecList.Create(mRVal.count);
701 if (result.mRHash = nil) then result.mRHash := THashStrInt.Create();
702 for rec in mRVal do result.addListItem(rec.clone(registerIn));
703 end;
704 result.mRecRef := mRecRef;
705 result.mMaxDim := mMaxDim;
706 result.mBinOfs := mBinOfs;
707 result.mSepPosSize := mSepPosSize;
708 result.mAsT := mAsT;
709 result.mDefined := mDefined;
710 result.mHasDefault := mHasDefault;
711 result.mWriteDef := mWriteDef;
712 result.mInternal := mInternal;
713 result.mNegBool := mNegBool;
714 result.mBitSetUnique := mBitSetUnique;
715 result.mAsMonsterId := mAsMonsterId;
716 result.mDefUnparsed := mDefUnparsed;
717 result.mDefSVal := mDefSVal;
718 result.mDefIVal := mDefIVal;
719 result.mDefIVal2 := mDefIVal2;
720 result.mDefIVal3 := mDefIVal3;
721 result.mDefIVal4 := mDefIVal4;
722 result.mDefRecRef := mDefRecRef;
723 result.mEBS := mEBS;
724 result.mEBSTypeName := mEBSTypeName;
725 result.mEBSType := mEBSType;
726 result.mRecRefId := mRecRefId;
727 result.mTagInt := mTagInt;
728 result.mTagPtr := mTagPtr;
729 result.mAlias := mAlias;
730 end;
733 function TDynField.palias (firstUp: Boolean=false): AnsiString;
734 var
735 nextUp: Boolean;
736 ch: AnsiChar;
737 begin
738 if (Length(mAlias) > 0) then
739 begin
740 if firstUp then result := UpCase1251(mAlias[1])+Copy(mAlias, 2, Length(mAlias)-1) else result := mAlias;
741 end
742 else
743 begin
744 result := '';
745 nextUp := firstUp;
746 for ch in mName do
747 begin
748 if (ch = '_') then begin nextUp := true; continue; end;
749 if nextUp then result += UpCase1251(ch) else result += ch;
750 nextUp := false;
751 end;
752 end;
753 end;
756 procedure TDynField.setRecRef (arec: TDynRecord);
757 var
758 trc: TDynRecord = nil;
759 begin
760 case mEBS of
761 TEBS.TNone: raise TDynRecException.CreateFmt('cannot set refrec for non-reference field ''%s''', [mName]);
762 TEBS.TRec:
763 begin
764 if (arec <> nil) then
765 begin
766 if (mEBSType <> nil) and (mEBSType is TDynRecord) then trc := (mEBSType as TDynRecord);
767 if (trc = nil) then raise TDynRecException.CreateFmt('cannot set refrec for field ''%s'' (type conflict: improperly initialized field)', [mName]);
768 if (trc.typeName <> arec.typeName) then raise TDynRecException.CreateFmt('cannot set refrec for field ''%s'' (type conflict: expected ''%s'' got ''%s'')', [mName, trc.typeName, arec.typeName]);
769 end;
770 mRecRef := arec;
771 mDefined := true;
772 exit;
773 end;
774 TEBS.TEnum: raise TDynRecException.CreateFmt('cannot set refrec for enum field ''%s''', [mName]);
775 TEBS.TBitSet: raise TDynRecException.CreateFmt('cannot set refrec for bitset field ''%s''', [mName]);
776 else raise TDynRecException.Create('ketmar forgot to process some reftypes');
777 end;
778 end;
781 function TDynField.getVar (): Variant;
782 begin
783 if (mEBS = TEBS.TRec) then begin result := LongInt(getRecRefIndex); exit; end;
784 case mType of
785 TType.TBool: result := (mIVal <> 0);
786 TType.TChar: result := mSVal;
787 TType.TByte: result := ShortInt(mIVal);
788 TType.TUByte: result := Byte(mIVal);
789 TType.TShort: result := SmallInt(mIVal);
790 TType.TUShort: result := Word(mIVal);
791 TType.TInt: result := LongInt(mIVal);
792 TType.TUInt: result := LongWord(mIVal);
793 TType.TString: result := mSVal;
794 TType.TPoint: raise TDynRecException.Create('cannot convert point field to variant');
795 TType.TSize: raise TDynRecException.Create('cannot convert size field to variant');
796 TType.TColor: raise TDynRecException.Create('cannot convert color field to variant');
797 TType.TList: raise TDynRecException.Create('cannot convert list field to variant');
798 TType.TTrigData: raise TDynRecException.Create('cannot convert trigdata field to variant');
799 else result := Unassigned; raise TDynRecException.Create('ketmar forgot to handle some field type');
800 end;
801 end;
804 procedure TDynField.setVar (val: Variant);
805 procedure setInt32 (v: LongInt);
806 begin
807 case mType of
808 TType.TBool:
809 if (v = 0) then mIVal := 0
810 else if (v = 1) then mIVal := 1
811 else raise TDynRecException.Create('cannot convert shortint variant to field value');
812 TType.TByte:
813 if (v >= -128) and (v <= 127) then mIVal := v
814 else raise TDynRecException.Create('cannot convert shortint variant to field value');
815 TType.TUByte:
816 if (v >= 0) and (v <= 255) then mIVal := v
817 else raise TDynRecException.Create('cannot convert shortint variant to field value');
818 TType.TShort:
819 if (v >= -32768) and (v <= 32767) then mIVal := v
820 else raise TDynRecException.Create('cannot convert shortint variant to field value');
821 TType.TUShort:
822 if (v >= 0) and (v <= 65535) then mIVal := v
823 else raise TDynRecException.Create('cannot convert shortint variant to field value');
824 TType.TInt:
825 mIVal := v;
826 TType.TUInt:
827 mIVal := v;
828 TType.TString:
829 mSVal := formatstrf('%s', [v]);
830 else
831 raise TDynRecException.Create('cannot convert integral variant to field value');
832 end;
833 end;
834 begin
835 case varType(val) of
836 varEmpty: raise TDynRecException.Create('cannot convert empty variant to field value');
837 varNull: raise TDynRecException.Create('cannot convert null variant to field value');
838 varSingle: raise TDynRecException.Create('cannot convert single variant to field value');
839 varDouble: raise TDynRecException.Create('cannot convert double variant to field value');
840 varDecimal: raise TDynRecException.Create('cannot convert decimal variant to field value');
841 varCurrency: raise TDynRecException.Create('cannot convert currency variant to field value');
842 varDate: raise TDynRecException.Create('cannot convert date variant to field value');
843 varOleStr: raise TDynRecException.Create('cannot convert olestr variant to field value');
844 varStrArg: raise TDynRecException.Create('cannot convert stdarg variant to field value');
845 varString:
846 if (mType = TType.TChar) or (mType = TType.TString) then
847 begin
848 mSVal := val;
849 end
850 else
851 begin
852 raise TDynRecException.Create('cannot convert string variant to field value');
853 end;
854 varDispatch: raise TDynRecException.Create('cannot convert dispatch variant to field value');
855 varBoolean:
856 case mType of
857 TType.TBool,
858 TType.TByte,
859 TType.TUByte,
860 TType.TShort,
861 TType.TUShort,
862 TType.TInt,
863 TType.TUInt:
864 if val then mIVal := 1 else mIVal := 0;
865 TType.TString:
866 if val then mSVal := 'true' else mSVal := 'false';
867 else
868 raise TDynRecException.Create('cannot convert boolean variant to field value');
869 end;
870 varVariant: raise TDynRecException.Create('cannot convert variant variant to field value');
871 varUnknown: raise TDynRecException.Create('cannot convert unknown variant to field value');
872 varByte,
873 varWord,
874 varShortInt,
875 varSmallint,
876 varInteger:
877 setInt32(val);
878 varInt64:
879 if (val < Int64(LongInt($80000000))) or (val > LongInt($7FFFFFFF)) then
880 raise TDynRecException.Create('cannot convert boolean variant to field value')
881 else
882 mIVal := LongInt(val);
883 varLongWord:
884 if (val > LongWord($7FFFFFFF)) then raise TDynRecException.Create('cannot convert longword variant to field value')
885 else setInt32(Integer(val));
886 varQWord: raise TDynRecException.Create('cannot convert uint64 variant to field value');
887 varError: raise TDynRecException.Create('cannot convert error variant to field value');
888 else raise TDynRecException.Create('cannot convert undetermined variant to field value');
889 end;
890 mDefined := true;
891 end;
894 // won't work for lists
895 function TDynField.isSimpleEqu (fld: TDynField): Boolean;
896 begin
897 if (fld = nil) or (mType <> fld.mType) then begin result := false; exit; end;
898 case mType of
899 TType.TBool: result := ((mIVal <> 0) = (fld.mIVal <> 0));
900 TType.TChar: result := (mSVal = fld.mSVal);
901 TType.TByte,
902 TType.TUByte,
903 TType.TShort,
904 TType.TUShort,
905 TType.TInt,
906 TType.TUInt:
907 result := (mIVal = fld.mIVal);
908 TType.TString: result := (mSVal = fld.mSVal);
909 TType.TPoint,
910 TType.TSize:
911 result := ((mIVal = fld.mIVal) and (mIVal2 = fld.mIVal2));
912 TType.TColor:
913 result := ((mIVal = fld.mIVal) and (mIVal2 = fld.mIVal2) and (mIVal3 = fld.mIVal3) and (mIVal4 = fld.mIVal4));
914 TType.TList: result := false;
915 TType.TTrigData:
916 begin
917 if (mRecRef = nil) then begin result := (fld.mRecRef = nil); exit; end;
918 result := mRecRef.isSimpleEqu(fld.mRecRef);
919 end;
920 else raise TDynRecException.Create('ketmar forgot to handle some field type');
921 end;
922 end;
925 procedure TDynField.setValue (const s: AnsiString);
926 var
927 stp: TTextParser;
928 begin
929 stp := TStrTextParser.Create(s+';');
930 try
931 parseValue(stp);
932 finally
933 stp.Free();
934 end;
935 end;
938 function TDynField.getRed (): Integer; inline; begin result := mIVal; if (result < 0) then result := 0 else if (result > 255) then result := 255; end;
939 procedure TDynField.setRed (v: Integer); inline; begin if (v < 0) then v := 0 else if (v > 255) then v := 255; mIVal := v; end;
941 function TDynField.getGreen (): Integer; inline; begin result := mIVal2; if (result < 0) then result := 0 else if (result > 255) then result := 255; end;
942 procedure TDynField.setGreen (v: Integer); inline; begin if (v < 0) then v := 0 else if (v > 255) then v := 255; mIVal2 := v; end;
944 function TDynField.getBlue (): Integer; inline; begin result := mIVal3; if (result < 0) then result := 0 else if (result > 255) then result := 255; end;
945 procedure TDynField.setBlue (v: Integer); inline; begin if (v < 0) then v := 0 else if (v > 255) then v := 255; mIVal3 := v; end;
947 function TDynField.getAlpha (): Integer; inline; begin result := mIVal4; if (result < 0) then result := 0 else if (result > 255) then result := 255; end;
948 procedure TDynField.setAlpha (v: Integer); inline; begin if (v < 0) then v := 0 else if (v > 255) then v := 255; mIVal4 := v; end;
951 procedure TDynField.parseDefaultValue ();
952 var
953 stp: TTextParser = nil;
954 oSVal: AnsiString;
955 oIVal, oIVal2, oIVal3, oIVal4: Integer;
956 oRRef: TDynRecord;
957 oDef: Boolean;
958 begin
959 if not mHasDefault then
960 begin
961 mDefSVal := '';
962 mDefIVal := 0;
963 mDefIVal2 := 0;
964 mDefIVal3 := 0;
965 mDefIVal4 := 0; // default value for alpha
966 mDefRecRef := nil;
967 end
968 else
969 begin
970 oSVal := mSVal;
971 oIVal := mIVal;
972 oIVal2 := mIVal2;
973 oIVal3 := mIVal3;
974 oIVal4 := mIVal4;
975 oRRef := mRecRef;
976 oDef := mDefined;
977 try
978 stp := TStrTextParser.Create(mDefUnparsed+';');
979 parseValue(stp);
980 //if (mType = TType.TColor) then writeln('4=[', mIVal4, ']');
981 mDefSVal := mSVal;
982 mDefIVal := mIVal;
983 mDefIVal2 := mIVal2;
984 mDefIVal3 := mIVal3;
985 mDefIVal4 := mIVal4;
986 mDefRecRef := mRecRef;
987 finally
988 mSVal := oSVal;
989 mIVal := oIVal;
990 mIVal2 := oIVal2;
991 mIVal3 := oIVal3;
992 mIVal4 := oIVal4;
993 mRecRef := oRRef;
994 mDefined := oDef;
995 stp.Free();
996 end;
997 end;
998 end;
1001 // default value should be parsed
1002 procedure TDynField.fixDefaultValue ();
1003 begin
1004 if mDefined then exit;
1005 if not mHasDefault then
1006 begin
1007 if mInternal then exit;
1008 raise TDynRecException.CreateFmt('field ''%s'' in record ''%s'' of record type ''%s'' is not set', [mName, mOwner.mId, mOwner.mTypeName]);
1009 end;
1010 if (mEBS = TEBS.TRec) then mRecRef := mDefRecRef;
1011 mSVal := mDefSVal;
1012 mIVal := mDefIVal;
1013 mIVal2 := mDefIVal2;
1014 mIVal3 := mDefIVal3;
1015 mIVal4 := mDefIVal4;
1016 //if (mType = TType.TColor) then writeln('4=[', mDefIVal4, ']');
1017 mDefined := true;
1018 end;
1021 // default value should be parsed
1022 function TDynField.isDefaultValue (): Boolean;
1023 begin
1024 if not mHasDefault then begin result := false; exit; end;
1025 if (mEBS = TEBS.TRec) then begin result := (mRecRef = mDefRecRef); exit; end;
1026 case mType of
1027 TType.TChar, TType.TString: result := (mSVal = mDefSVal);
1028 TType.TPoint, TType.TSize: result := (mIVal = mDefIVal2) and (mIVal2 = mDefIVal2);
1029 TType.TColor: result := (mIVal = mDefIVal2) and (mIVal2 = mDefIVal2) and (mIVal3 = mDefIVal3) and (mIVal4 = mDefIVal4);
1030 TType.TList, TType.TTrigData: result := false; // no default values for those types
1031 else result := (mIVal = mDefIVal);
1032 end;
1033 end;
1036 function TDynField.getListCount (): Integer; inline;
1037 begin
1038 if (mRVal <> nil) then result := mRVal.count else result := 0;
1039 end;
1042 function TDynField.getListItem (idx: Integer): TDynRecord; inline; overload;
1043 begin
1044 if (mRVal <> nil) and (idx >= 0) and (idx < mRVal.count) then result := mRVal[idx] else result := nil;
1045 end;
1048 function TDynField.getListItem (const aname: AnsiString): TDynRecord; inline; overload;
1049 var
1050 idx: Integer;
1051 begin
1052 if (mRVal <> nil) and mRHash.get(aname, idx) then result := mRVal[idx] else result := nil;
1053 end;
1056 function TDynField.addListItem (rec: TDynRecord): Boolean; inline;
1057 begin
1058 result := false;
1059 if (mRVal <> nil) then
1060 begin
1061 mRVal.append(rec);
1062 if (Length(rec.mId) > 0) then result := mRHash.put(rec.mId, mRVal.count-1);
1063 end;
1064 end;
1067 function TDynField.removeListItem (const aid: AnsiString): TDynRecord;
1068 var
1069 f, idx: Integer;
1070 begin
1071 result := nil;
1072 if mRHash.get(aid, idx) then
1073 begin
1074 assert((idx >= 0) and (idx < mRVal.count));
1075 result := mRVal[idx];
1076 // fix hash and list
1077 for f := idx+1 to mRVal.count-1 do
1078 begin
1079 if (Length(mRVal[f].mId) > 0) then mRHash.put(mRVal[f].mId, f-1);
1080 end;
1081 mRHash.del(aid);
1082 mRVal.delete(idx);
1083 end;
1084 end;
1087 class function TDynField.getTypeName (t: TType): AnsiString;
1088 begin
1089 case t of
1090 TType.TBool: result := 'bool';
1091 TType.TChar: result := 'char';
1092 TType.TByte: result := 'byte';
1093 TType.TUByte: result := 'ubyte';
1094 TType.TShort: result := 'short';
1095 TType.TUShort: result := 'ushort';
1096 TType.TInt: result := 'int';
1097 TType.TUInt: result := 'uint';
1098 TType.TString: result := 'string';
1099 TType.TPoint: result := 'point';
1100 TType.TSize: result := 'size';
1101 TType.TColor: result := 'color';
1102 TType.TList: result := 'array';
1103 TType.TTrigData: result := 'trigdata';
1104 else raise TDynRecException.Create('ketmar forgot to handle some field type');
1105 end;
1106 end;
1109 function TDynField.definition (): AnsiString;
1110 begin
1111 result := quoteStr(mName)+' type ';
1112 result += getTypeName(mType);
1113 if (Length(mAlias) > 0) then result += ' alias '+mAlias;
1114 if (mMaxDim >= 0) then result += Format('[%d]', [mMaxDim]);
1115 if (mBinOfs >= 0) then result += Format(' offset %d', [mBinOfs]);
1116 case mEBS of
1117 TEBS.TNone: begin end;
1118 TEBS.TRec: result += ' '+mEBSTypeName;
1119 TEBS.TEnum: result += ' enum '+mEBSTypeName;
1120 TEBS.TBitSet: begin result += ' bitset '; if mBitSetUnique then result += 'unique '; result += mEBSTypeName; end;
1121 end;
1122 if mAsMonsterId then result += ' as monsterid';
1123 if mHasDefault and (Length(mDefUnparsed) > 0) then result += ' default '+mDefUnparsed;
1124 if mSepPosSize then
1125 begin
1126 if (mType = TType.TPoint) then begin if (mAsT) then result += ' as txy' else result += ' as xy'; end
1127 else if (mType = TType.TSize) then begin if (mAsT) then result += ' as twh' else result += ' as wh'; end;
1128 end;
1129 if mWriteDef then result += ' writedefault';
1130 if mInternal then result += ' internal';
1131 end;
1134 procedure TDynField.parseDef (pr: TTextParser);
1135 var
1136 fldname: AnsiString;
1137 fldtype: AnsiString;
1138 fldofs: Integer;
1139 fldrecname: AnsiString;
1140 asxy, aswh, ast: Boolean;
1141 ainternal: Boolean;
1142 writedef: Boolean;
1143 defstr: AnsiString;
1144 defint, defint2, defint3, defint4: Integer;
1145 hasdefStr: Boolean;
1146 hasdefInt: Boolean;
1147 hasdefId: Boolean;
1148 lmaxdim: Integer;
1149 lebs: TDynField.TEBS;
1150 unique: Boolean;
1151 asmonid: Boolean;
1152 defech: AnsiChar;
1153 xalias: AnsiString;
1154 atip, ahelp: AnsiString;
1155 begin
1156 fldname := '';
1157 fldtype := '';
1158 fldofs := -1;
1159 fldrecname := '';
1160 asxy := false;
1161 aswh := false;
1162 ast := false;
1163 ainternal := false;
1164 writedef := false;
1165 defstr := '';
1166 defint := 0;
1167 defint2 := 0;
1168 defint3 := 0;
1169 defint4 := 0;
1170 hasdefStr := false;
1171 hasdefInt := false;
1172 hasdefId := false;
1173 unique := false;
1174 asmonid := false;
1175 lmaxdim := -1;
1176 lebs := TDynField.TEBS.TNone;
1177 xalias := '';
1178 atip := '';
1179 ahelp := '';
1181 // field name
1182 fldname := pr.expectIdOrStr();
1184 while (not pr.isDelim(';')) do
1185 begin
1186 if pr.eatId('type') then
1187 begin
1188 if (Length(fldtype) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate type definition for field ''%s''', [fldname]);
1189 // field type
1190 fldtype := pr.expectId();
1191 // fixed-size array?
1192 if pr.eatDelim('[') then
1193 begin
1194 lmaxdim := pr.expectInt();
1195 // arbitrary limits
1196 if (lmaxdim < 1) or (lmaxdim > 32768) then raise TDynParseException.CreateFmt(pr, 'invalid field ''%s'' array size', [fldname]);
1197 pr.expectDelim(']');
1198 end;
1199 continue;
1200 end;
1202 if pr.eatId('alias') then
1203 begin
1204 if (Length(xalias) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate alias definition for field ''%s''', [fldname]);
1205 xalias := pr.expectId();
1206 continue;
1207 end;
1209 if pr.eatId('tip') then
1210 begin
1211 if (Length(atip) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate tip definition for field ''%s''', [fldname]);
1212 atip := pr.expectStr(false);
1213 continue;
1214 end;
1216 if pr.eatId('help') then
1217 begin
1218 if (Length(ahelp) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate tip definition for field ''%s''', [fldname]);
1219 ahelp := pr.expectStr(false);
1220 continue;
1221 end;
1223 if pr.eatId('offset') then
1224 begin
1225 if (fldofs >= 0) then raise TDynParseException.CreateFmt(pr, 'duplicate field ''%s'' offset', [fldname]);
1226 fldofs := pr.expectInt();
1227 if (fldofs < 0) then raise TDynParseException.CreateFmt(pr, 'invalid field ''%s'' offset', [fldname]);
1228 continue;
1229 end;
1231 if pr.eatId('as') then
1232 begin
1233 if pr.eatId('xy') then asxy := true
1234 else if pr.eatId('wh') then aswh := true
1235 else if pr.eatId('txy') then begin asxy := true; ast := true; end
1236 else if pr.eatId('twh') then begin aswh := true; ast := true; end
1237 else if pr.eatId('monsterid') then begin asmonid := true; end
1238 else raise TDynParseException.CreateFmt(pr, 'invalid field ''%s'' as what?', [fldname]);
1239 continue;
1240 end;
1242 if pr.eatId('enum') then
1243 begin
1244 lebs := TDynField.TEBS.TEnum;
1245 if (Length(fldrecname) <> 0) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' already typed as ''%s''', [fldname, fldrecname]);
1246 fldrecname := pr.expectId();
1247 continue;
1248 end;
1250 if pr.eatId('bitset') then
1251 begin
1252 lebs := TDynField.TEBS.TBitSet;
1253 if (Length(fldrecname) <> 0) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' already typed as ''%s''', [fldname, fldrecname]);
1254 unique := pr.eatId('unique');
1255 fldrecname := pr.expectId();
1256 continue;
1257 end;
1259 if pr.eatId('default') then
1260 begin
1261 if hasdefStr or hasdefInt or hasdefId then raise TDynParseException.CreateFmt(pr, 'field ''%s'' has duplicate default', [fldname]);
1262 case pr.tokType of
1263 pr.TTStr:
1264 begin
1265 hasdefStr := true;
1266 defstr := pr.expectStr(true); // allow empty strings
1267 end;
1268 pr.TTId:
1269 begin
1270 hasdefId := true;
1271 defstr := pr.expectId();
1272 end;
1273 pr.TTInt:
1274 begin
1275 hasdefInt := true;
1276 defint := pr.expectInt();
1277 end;
1278 pr.TTDelim:
1279 begin
1280 hasdefInt := true;
1281 if pr.eatDelim('[') then defech := ']' else begin pr.expectDelim('('); defech := ')'; end;
1282 defint := pr.expectInt();
1283 defint2 := pr.expectInt();
1284 if (pr.tokType = pr.TTInt) then
1285 begin
1286 defint3 := pr.expectInt();
1287 if (pr.tokType = pr.TTInt) then defint4 := pr.expectInt();
1288 end;
1289 pr.expectDelim(defech);
1290 end;
1291 else
1292 raise TDynParseException.CreateFmt(pr, 'field ''%s'' has invalid default', [fldname]);
1293 end;
1294 continue;
1295 end;
1297 if pr.eatId('writedefault') then
1298 begin
1299 writedef := true;
1300 continue;
1301 end;
1303 if pr.eatId('internal') then
1304 begin
1305 ainternal := true;
1306 continue;
1307 end;
1309 // record type, no special modifiers
1310 if (pr.tokType <> pr.TTId) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' has something unexpected in definition', [fldname]);
1312 if (Length(fldrecname) <> 0) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' already typed as ''%s''', [fldname, fldrecname]);
1313 fldrecname := pr.expectId();
1314 lebs := TDynField.TEBS.TRec;
1315 end;
1317 pr.expectDelim(';');
1319 // create field
1320 mName := fldname;
1321 if (fldtype = 'bool') then mType := TType.TBool
1322 else if (fldtype = 'negbool') then begin mType := TType.TBool; mNegBool := true; end
1323 else if (fldtype = 'char') then mType := TType.TChar
1324 else if (fldtype = 'byte') then mType := TType.TByte
1325 else if (fldtype = 'ubyte') then mType := TType.TUByte
1326 else if (fldtype = 'short') then mType := TType.TShort
1327 else if (fldtype = 'ushort') then mType := TType.TUShort
1328 else if (fldtype = 'int') then mType := TType.TInt
1329 else if (fldtype = 'uint') then mType := TType.TUInt
1330 else if (fldtype = 'string') then mType := TType.TString
1331 else if (fldtype = 'point') then mType := TType.TPoint
1332 else if (fldtype = 'size') then mType := TType.TSize
1333 else if (fldtype = 'color') then mType := TType.TColor
1334 else if (fldtype = 'trigdata') then mType := TType.TTrigData
1335 else
1336 begin
1337 // record types defaults to int
1338 if (Length(fldrecname) > 0) then
1339 begin
1340 mType := TType.TInt;
1341 end
1342 else
1343 begin
1344 if (Length(fldtype) = 0) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' has no type', [fldname])
1345 else raise TDynParseException.CreateFmt(pr, 'field ''%s'' has invalid type ''%s''', [fldname, fldtype]);
1346 end;
1347 end;
1349 // check for valid arrays
1350 if (lmaxdim > 0) and (mType <> TType.TChar) and (mType <> TType.TTrigData) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' cannot be array', [fldname, fldtype]);
1352 // check for valid trigdata or record type
1353 if (mType = TType.TTrigData) then
1354 begin
1355 // trigdata
1356 if (lmaxdim < 1) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' cannot be non-array', [fldname, 'trigdata']);
1357 if (Length(fldrecname) > 0) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' cannot have another type', [fldname, 'trigdata']);
1358 lebs := TDynField.TEBS.TRec;
1359 end
1360 else if (Length(fldrecname) > 0) then
1361 begin
1362 // record
1363 if not (mType in [TType.TByte, TType.TUByte, TType.TShort, TType.TUShort, TType.TInt, TType.TUInt]) then
1364 begin
1365 raise TDynParseException.CreateFmt(pr, 'field ''%s'' of record type ''%s'' cannot have type ''%s''', [fldname, fldrecname, fldtype]);
1366 end;
1367 end;
1369 // setup default value
1370 if hasdefStr then self.mDefUnparsed := quoteStr(defstr)
1371 else if hasdefId then self.mDefUnparsed := defstr
1372 else if hasdefInt then
1373 begin
1374 if (mType = TType.TPoint) then self.mDefUnparsed := Format('(%d %d)', [defint, defint2])
1375 else if (mType = TType.TSize) then self.mDefUnparsed := Format('[%d %d]', [defint, defint2])
1376 else if (mType = TType.TColor) then self.mDefUnparsed := Format('(%d %d %d %d)', [defint, defint2, defint3, defint4])
1377 else self.mDefUnparsed := Format('%d', [defint]);
1378 end;
1380 self.mHasDefault := (hasdefStr or hasdefId or hasdefInt);
1381 self.mEBS := lebs;
1382 self.mEBSTypeName := fldrecname;
1383 self.mBitSetUnique := unique;
1384 self.mAsMonsterId := asmonid;
1385 self.mMaxDim := lmaxdim;
1386 self.mBinOfs := fldofs;
1387 self.mSepPosSize := (asxy or aswh);
1388 self.mAsT := ast;
1389 self.mWriteDef := writedef;
1390 self.mInternal := ainternal;
1391 self.mAlias := xalias;
1392 self.mTip := atip;
1393 self.mHelp := ahelp;
1394 end;
1397 function TDynField.getRecRefIndex (): Integer;
1398 begin
1399 if (mRecRef = nil) then begin result := -1; exit; end;
1400 result := mOwner.findRecordNumByType(mEBSTypeName, mRecRef);
1401 end;
1404 procedure TDynField.writeBinTo (var hasLostData: Boolean; st: TStream);
1405 var
1406 s: AnsiString;
1407 f: Integer;
1408 maxv: Integer;
1409 buf: PByte;
1410 ws: TStream = nil;
1411 begin
1412 case mEBS of
1413 TEBS.TNone: begin end;
1414 TEBS.TRec:
1415 begin
1416 if (mMaxDim >= 0) then
1417 begin
1418 // this must be triggerdata
1419 if (mType <> TType.TTrigData) then
1420 begin
1421 raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' cannot be written', [mEBSTypeName, mName]);
1422 end;
1423 // write triggerdata
1424 GetMem(buf, mMaxDim);
1425 if (buf = nil) then raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' cannot be written', [mEBSTypeName, mName]);
1426 try
1427 FillChar(buf^, mMaxDim, 0);
1428 if (mRecRef <> nil) then
1429 begin
1430 ws := TSFSMemoryChunkStream.Create(buf, mMaxDim);
1431 mRecRef.writeBinTo(hasLostData, ws, mMaxDim); // as trigdata
1432 end;
1433 st.WriteBuffer(buf^, mMaxDim);
1434 finally
1435 ws.Free();
1436 if (buf <> nil) then FreeMem(buf);
1437 end;
1438 exit;
1439 end;
1440 // record reference
1441 case mType of
1442 TType.TByte: maxv := 127;
1443 TType.TUByte: maxv := 254;
1444 TType.TShort: maxv := 32767;
1445 TType.TUShort: maxv := 65534;
1446 TType.TInt: maxv := $7fffffff;
1447 TType.TUInt: maxv := $7fffffff;
1448 else raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' cannot be written', [mEBSTypeName, mName]);
1449 end;
1450 // find record number
1451 if (mRecRef <> nil) then
1452 begin
1453 f := mOwner.findRecordNumByType(mEBSTypeName, mRecRef);
1454 if (f < 0) then raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' not found in record list', [mEBSTypeName, mName]);
1455 if mAsMonsterId then Inc(f);
1456 if (f > maxv) then raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' has too big index', [mEBSTypeName, mName]);
1457 end
1458 else
1459 begin
1460 if mAsMonsterId then f := 0 else f := -1;
1461 end;
1462 case mType of
1463 TType.TByte, TType.TUByte: writeInt(st, Byte(f));
1464 TType.TShort, TType.TUShort: writeInt(st, SmallInt(f));
1465 TType.TInt, TType.TUInt: writeInt(st, LongWord(f));
1466 else raise TDynRecException.CreateFmt('record reference type ''%s'' in field ''%s'' cannot be written', [mEBSTypeName, mName]);
1467 end;
1468 exit;
1469 end;
1470 TEBS.TEnum: begin end;
1471 TEBS.TBitSet: begin end;
1472 else raise TDynRecException.Create('ketmar forgot to handle some EBS type');
1473 end;
1475 case mType of
1476 TType.TBool:
1477 begin
1478 if not mNegBool then
1479 begin
1480 if (mIVal <> 0) then writeInt(st, Byte(1)) else writeInt(st, Byte(0));
1481 end
1482 else
1483 begin
1484 if (mIVal = 0) then writeInt(st, Byte(1)) else writeInt(st, Byte(0));
1485 end;
1486 exit;
1487 end;
1488 TType.TChar:
1489 begin
1490 if (mMaxDim = 0) then raise TDynRecException.CreateFmt('invalid string size definition for field ''%s''', [mName]);
1491 if (mMaxDim < 0) then
1492 begin
1493 if (Length(mSVal) <> 1) then raise TDynRecException.CreateFmt('invalid string size definition for field ''%s''', [mName]);
1494 writeInt(st, Byte(mSVal[1]));
1495 end
1496 else
1497 begin
1498 if (Length(mSVal) > mMaxDim) then raise TDynRecException.CreateFmt('invalid string size definition for field ''%s''', [mName]);
1499 s := utf2win(mSVal);
1500 if (Length(s) > 0) then st.WriteBuffer(PChar(s)^, Length(s));
1501 for f := Length(s) to mMaxDim do writeInt(st, Byte(0));
1502 end;
1503 exit;
1504 end;
1505 TType.TByte,
1506 TType.TUByte:
1507 begin
1508 // triggerdata array was processed earlier
1509 if (mMaxDim >= 0) then TDynRecException.CreateFmt('byte array in field ''%s'' cannot be written', [mName]);
1510 writeInt(st, Byte(mIVal));
1511 exit;
1512 end;
1513 TType.TShort,
1514 TType.TUShort:
1515 begin
1516 if (mMaxDim >= 0) then raise TDynRecException.CreateFmt('short array in field ''%s'' cannot be written', [mName]);
1517 writeInt(st, Word(mIVal));
1518 exit;
1519 end;
1520 TType.TInt,
1521 TType.TUInt:
1522 begin
1523 if (mMaxDim >= 0) then raise TDynRecException.CreateFmt('int array in field ''%s'' cannot be written', [mName]);
1524 writeInt(st, LongWord(mIVal));
1525 exit;
1526 end;
1527 TType.TString:
1528 begin
1529 raise TDynRecException.CreateFmt('cannot write string field ''%s''', [mName]);
1530 end;
1531 TType.TPoint:
1532 begin
1533 if (mMaxDim >= 0) then raise TDynRecException.CreateFmt('pos/size array in field ''%s'' cannot be written', [mName]);
1534 writeInt(st, LongInt(mIVal));
1535 writeInt(st, LongInt(mIVal2));
1536 exit;
1537 end;
1538 TType.TSize:
1539 begin
1540 if (mMaxDim >= 0) then raise TDynRecException.CreateFmt('pos/size array in field ''%s'' cannot be written', [mName]);
1541 writeInt(st, Word(mIVal));
1542 writeInt(st, Word(mIVal2));
1543 exit;
1544 end;
1545 TType.TColor:
1546 begin
1547 if (mMaxDim >= 0) then raise TDynRecException.CreateFmt('color array in field ''%s'' cannot be written', [mName]);
1548 writeInt(st, Byte(mIVal));
1549 writeInt(st, Byte(mIVal2));
1550 writeInt(st, Byte(mIVal3));
1551 //writeInt(st, Byte(mIVal4)); // the only place we have RGB in binary map is effect trigger, and it has no alpha
1552 if (mIVal4 <> 255) then hasLostData := true;
1553 exit;
1554 end;
1555 TType.TList:
1556 raise TDynRecException.Create('cannot write lists to binary format');
1557 TType.TTrigData:
1558 raise TDynRecException.Create('cannot write triggers to binary format (internal error)');
1559 else raise TDynRecException.Create('ketmar forgot to handle some field type');
1560 end;
1561 end;
1564 procedure TDynField.writeTo (wr: TTextWriter);
1565 var
1566 es: TDynEBS = nil;
1567 f, mask: Integer;
1568 first, found: Boolean;
1569 begin
1570 wr.put(mName);
1571 wr.put(' ');
1572 case mEBS of
1573 TEBS.TNone: begin end;
1574 TEBS.TRec:
1575 begin
1576 if (mRecRef = nil) then
1577 begin
1578 if (mType = TType.TTrigData) then wr.put('{}'#10) else wr.put('null;'#10);
1579 end
1580 else if (Length(mRecRef.mId) = 0) then
1581 begin
1582 mRecRef.writeTo(wr, false); // only data, no header
1583 end
1584 else
1585 begin
1586 wr.put(mRecRef.mId);
1587 wr.put(';'#10);
1588 end;
1589 exit;
1590 end;
1591 TEBS.TEnum:
1592 begin
1593 //def := mOwner.mOwner;
1594 //es := def.ebsType[mEBSTypeName];
1595 es := nil;
1596 if (mEBSType <> nil) and (mEBSType is TDynEBS) then es := (mEBSType as TDynEBS);
1597 if (es = nil) or (not es.mIsEnum) then raise TDynRecException.CreateFmt('record enum type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
1598 for f := 0 to High(es.mVals) do
1599 begin
1600 if (es.mVals[f] = mIVal) then
1601 begin
1602 wr.put(es.mIds[f]);
1603 wr.put(';'#10);
1604 exit;
1605 end;
1606 end;
1607 raise TDynRecException.CreateFmt('value %d in record enum type ''%s'' for field ''%s'' not found', [mIVal, mEBSTypeName, mName]);
1608 end;
1609 TEBS.TBitSet:
1610 begin
1611 //def := mOwner.mOwner;
1612 //es := def.ebsType[mEBSTypeName];
1613 es := nil;
1614 if (mEBSType <> nil) and (mEBSType is TDynEBS) then es := (mEBSType as TDynEBS);
1615 if (es = nil) or es.mIsEnum then raise TDynRecException.CreateFmt('record bitset type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
1616 // none?
1617 if (mIVal = 0) then
1618 begin
1619 for f := 0 to High(es.mVals) do
1620 begin
1621 if (es.mVals[f] = 0) then
1622 begin
1623 wr.put(es.mIds[f]);
1624 wr.put(';'#10);
1625 exit;
1626 end;
1627 end;
1628 raise TDynRecException.CreateFmt('value %d in record bitset type ''%s'' for field ''%s'' not found', [0, mEBSTypeName, mName]);
1629 end;
1630 // not none
1631 mask := 1;
1632 first := true;
1633 while (mask <> 0) do
1634 begin
1635 if ((mIVal and mask) <> 0) then
1636 begin
1637 found := false;
1638 for f := 0 to High(es.mVals) do
1639 begin
1640 if (es.mVals[f] = mask) then
1641 begin
1642 if not first then wr.put(' | ') else first := false;
1643 wr.put(es.mIds[f]);
1644 found := true;
1645 break;
1646 end;
1647 end;
1648 if not found then raise TDynRecException.CreateFmt('value %d in record bitset type ''%s'' for field ''%s'' not found', [mask, mEBSTypeName, mName]);
1649 end;
1650 mask := mask shl 1;
1651 end;
1652 wr.put(';'#10);
1653 exit;
1654 end;
1655 else raise TDynRecException.Create('ketmar forgot to handle some EBS type');
1656 end;
1658 case mType of
1659 TType.TBool:
1660 begin
1661 if (mIVal = 0) then wr.put('false;'#10) else wr.put('true;'#10);
1662 exit;
1663 end;
1664 TType.TChar:
1665 begin
1666 if (mMaxDim = 0) then raise TDynRecException.CreateFmt('invalid string size definition for field ''%s''', [mName]);
1667 wr.put(quoteStr(mSVal));
1668 wr.put(';'#10);
1669 exit;
1670 end;
1671 TType.TByte,
1672 TType.TUByte,
1673 TType.TShort,
1674 TType.TUShort,
1675 TType.TInt,
1676 TType.TUInt:
1677 begin
1678 wr.put('%d;'#10, [mIVal]);
1679 exit;
1680 end;
1681 TType.TString:
1682 begin
1683 wr.put(quoteStr(mSVal));
1684 wr.put(';'#10);
1685 exit;
1686 end;
1687 TType.TPoint,
1688 TType.TSize:
1689 begin
1690 wr.put('(%d %d);'#10, [mIVal, mIVal2]);
1691 exit;
1692 end;
1693 TType.TColor:
1694 begin
1695 if (mIVal3 = 255) then wr.put('(%d %d %d);'#10, [mIVal, mIVal2, mIVal3])
1696 else wr.put('(%d %d %d %d);'#10, [mIVal, mIVal2, mIVal3, mIVal4]);
1697 exit;
1698 end;
1699 TType.TList:
1700 begin
1701 assert(false);
1702 exit;
1703 end;
1704 TType.TTrigData:
1705 begin
1706 assert(false);
1707 exit;
1708 end;
1709 else raise TDynRecException.Create('ketmar forgot to handle some field type');
1710 end;
1711 raise TDynRecException.CreateFmt('cannot parse field ''%s'' yet', [mName]);
1712 end;
1715 procedure TDynField.parseBinValue (st: TStream);
1716 var
1717 rec, rc: TDynRecord;
1718 tfld: TDynField;
1719 es: TDynEBS = nil;
1720 tdata: PByte = nil;
1721 f, mask: Integer;
1722 s: AnsiString;
1723 begin
1724 case mEBS of
1725 TEBS.TNone: begin end;
1726 TEBS.TRec:
1727 begin
1728 // this must be triggerdata
1729 if (mType = TType.TTrigData) then
1730 begin
1731 assert(mMaxDim > 0);
1732 rec := mOwner;
1733 // find trigger definition
1734 tfld := rec.trigTypeField();
1735 if (tfld = nil) then raise TDynRecException.CreateFmt('triggerdata value for field ''%s'' in record ''%s'' without TriggerType field', [mName, rec.mTypeName]);
1736 rc := mOwner.mOwner.trigTypeFor[tfld.mSVal]; // find in mapdef
1737 if (rc = nil) then raise TDynRecException.CreateFmt('triggerdata definition for field ''%s'' in record ''%s'' with type ''%s'' not found', [mName, rec.mTypeName, tfld.mSVal]);
1738 rc := rc.clone(mOwner.mHeaderRec);
1739 rc.mHeaderRec := mOwner.mHeaderRec;
1740 // on error, it will be freed by memowner
1741 rc.parseBinValue(st, true);
1742 mRecRef := rc;
1743 mDefined := true;
1744 exit;
1745 end
1746 else
1747 begin
1748 // not a trigger data
1749 case mType of
1750 TType.TByte: f := readShortInt(st);
1751 TType.TUByte: f := readByte(st);
1752 TType.TShort: f := readSmallInt(st);
1753 TType.TUShort: f := readWord(st);
1754 TType.TInt: f := readLongInt(st);
1755 TType.TUInt: f := readLongWord(st);
1756 else raise TDynRecException.CreateFmt('invalid non-numeric type ''%s'' for field ''%s'' of record ''%s''', [getTypeName(mType), mName, mEBSTypeName]);
1757 end;
1758 if mAsMonsterId then Dec(f);
1759 if (f < 0) then mRecRefId := '' else mRecRefId := Format('%s%d', [mEBSTypeName, f]);
1760 end;
1761 mDefined := true;
1762 exit;
1763 end;
1764 TEBS.TEnum,
1765 TEBS.TBitSet:
1766 begin
1767 assert(mMaxDim < 0);
1768 case mType of
1769 TType.TByte: f := readShortInt(st);
1770 TType.TUByte: f := readByte(st);
1771 TType.TShort: f := readSmallInt(st);
1772 TType.TUShort: f := readWord(st);
1773 TType.TInt: f := readLongInt(st);
1774 TType.TUInt: f := readLongWord(st);
1775 else raise TDynRecException.CreateFmt('invalid non-numeric type ''%s'' for field ''%s'' of record ''%s''', [getTypeName(mType), mName, mEBSTypeName]);
1776 end;
1777 es := nil;
1778 if (mEBSType <> nil) and (mEBSType is TDynEBS) then es := (mEBSType as TDynEBS);
1779 if (es = nil) or (es.mIsEnum <> (mEBS = TEBS.TEnum)) then raise TDynRecException.CreateFmt('record enum type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
1780 mIVal := f;
1781 // build enum/bitfield values
1782 if (mEBS = TEBS.TEnum) then
1783 begin
1784 mSVal := es.nameByValue(mIVal);
1785 if (Length(mSVal) = 0) then raise TDynRecException.CreateFmt('record enum type ''%s'' for field ''%s'' has invalid value %d', [mEBSTypeName, mName, mIVal]);
1786 end
1787 else
1788 begin
1789 // special for 'none'
1790 if (mIVal = 0) then
1791 begin
1792 mSVal := es.nameByValue(mIVal);
1793 if (Length(mSVal) = 0) then raise TDynRecException.CreateFmt('record bitset type ''%s'' for field ''%s'' has invalid value %d', [mEBSTypeName, mName, mIVal]);
1794 end
1795 else
1796 begin
1797 mSVal := '';
1798 mask := 1;
1799 while (mask <> 0) do
1800 begin
1801 if ((mIVal and mask) <> 0) then
1802 begin
1803 s := es.nameByValue(mask);
1804 if (Length(s) = 0) then raise TDynRecException.CreateFmt('record bitset type ''%s'' for field ''%s'' has invalid value %d', [mEBSTypeName, mName, mask]);
1805 if (Length(mSVal) <> 0) then mSVal += '+';
1806 mSVal += s;
1807 end;
1808 mask := mask shl 1;
1809 end;
1810 end;
1811 end;
1812 //writeln('ebs <', es.mName, '>: ', mSVal);
1813 mDefined := true;
1814 exit;
1815 end;
1816 else raise TDynRecException.Create('ketmar forgot to handle some EBS type');
1817 end;
1819 case mType of
1820 TType.TBool:
1821 begin
1822 f := readByte(st);
1823 if (f <> 0) then f := 1;
1824 if mNegBool then f := 1-f;
1825 mIVal := f;
1826 mDefined := true;
1827 exit;
1828 end;
1829 TType.TChar:
1830 begin
1831 if (mMaxDim < 0) then
1832 begin
1833 mIVal := readByte(st);
1834 end
1835 else
1836 begin
1837 mSVal := '';
1838 GetMem(tdata, mMaxDim);
1839 try
1840 st.ReadBuffer(tdata^, mMaxDim);
1841 f := 0;
1842 while (f < mMaxDim) and (tdata[f] <> 0) do Inc(f);
1843 if (f > 0) then
1844 begin
1845 SetLength(mSVal, f);
1846 Move(tdata^, PChar(mSVal)^, f);
1847 mSVal := win2utf(mSVal);
1848 end;
1849 finally
1850 FreeMem(tdata);
1851 end;
1852 end;
1853 mDefined := true;
1854 exit;
1855 end;
1856 TType.TByte: begin mIVal := readShortInt(st); mDefined := true; exit; end;
1857 TType.TUByte: begin mIVal := readByte(st); mDefined := true; exit; end;
1858 TType.TShort: begin mIVal := readSmallInt(st); mDefined := true; exit; end;
1859 TType.TUShort: begin mIVal := readWord(st); mDefined := true; exit; end;
1860 TType.TInt: begin mIVal := readLongInt(st); mDefined := true; exit; end;
1861 TType.TUInt: begin mIVal := readLongWord(st); mDefined := true; exit; end;
1862 TType.TString:
1863 begin
1864 raise TDynRecException.Create('cannot read strings from binaries yet');
1865 exit;
1866 end;
1867 TType.TPoint:
1868 begin
1869 mIVal := readLongInt(st);
1870 mIVal2 := readLongInt(st);
1871 mDefined := true;
1872 exit;
1873 end;
1874 TType.TSize:
1875 begin
1876 mIVal := readWord(st);
1877 mIVal2 := readWord(st);
1878 mDefined := true;
1879 exit;
1880 end;
1881 TType.TColor:
1882 begin
1883 mIVal := readByte(st);
1884 mIVal2 := readByte(st);
1885 mIVal3 := readByte(st);
1886 //mIVal4 := readByte(st); // the only place we have RGB in binary map is effect trigger, and it has no alpha
1887 mIVal4 := 255;
1888 mDefined := true;
1889 exit;
1890 end;
1891 TType.TList:
1892 begin
1893 assert(false);
1894 exit;
1895 end;
1896 TType.TTrigData:
1897 begin
1898 assert(false);
1899 exit;
1900 end;
1901 else raise TDynRecException.Create('ketmar forgot to handle some field type');
1902 end;
1903 raise TDynRecException.CreateFmt('cannot parse field ''%s'' yet', [mName]);
1904 end;
1907 procedure TDynField.parseValue (pr: TTextParser);
1909 procedure parseInt (min, max: Integer);
1910 begin
1911 mIVal := pr.expectInt();
1912 if (mIVal < min) or (mIVal > max) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
1913 mDefined := true;
1914 end;
1916 var
1917 rec, rc: TDynRecord;
1918 es: TDynEBS = nil;
1919 tfld: TDynField;
1920 tk: AnsiString;
1921 edim: AnsiChar;
1922 begin
1923 if (pr.tokType = pr.TTEOF) then raise TDynParseException.Create(pr, 'field value expected');
1924 if (pr.isDelim(';')) then raise TDynParseException.Create(pr, 'extra semicolon');
1925 // if this field should contain struct, convert type and parse struct
1926 case mEBS of
1927 TEBS.TNone: begin end;
1928 TEBS.TRec:
1929 begin
1930 // ugly hack. sorry.
1931 if (mType = TType.TTrigData) then
1932 begin
1933 pr.expectDelim('{');
1934 if (pr.eatDelim('}')) then
1935 begin
1936 // '{}'
1937 mRecRef := nil;
1938 end
1939 else
1940 begin
1941 rec := mOwner;
1942 // find trigger definition
1943 tfld := rec.trigTypeField();
1944 if (tfld = nil) then raise TDynParseException.CreateFmt(pr, 'triggerdata value for field ''%s'' in record ''%s'' without ''type'' field', [mName, rec.mTypeName]);
1945 rc := mOwner.mOwner.trigTypeFor[tfld.mSVal]; // find in mapdef
1946 if (rc = nil) then raise TDynParseException.CreateFmt(pr, 'triggerdata definition for field ''%s'' in record ''%s'' with type ''%s'' not found', [mName, rec.mTypeName, tfld.mSVal]);
1947 rc := rc.clone(mOwner.mHeaderRec);
1948 rc.mHeaderRec := mOwner.mHeaderRec;
1949 //writeln(rc.definition);
1950 // on error, it will be freed by memowner
1951 rc.parseValue(pr, true);
1952 mRecRef := rc;
1953 end;
1954 mDefined := true;
1955 pr.eatDelim(';'); // hack: allow (but don't require) semicolon after inline records
1956 exit;
1957 end;
1958 // other record types
1959 if (pr.tokType = pr.TTId) then
1960 begin
1961 if pr.eatId('null') then
1962 begin
1963 mRecRef := nil;
1964 end
1965 else
1966 begin
1967 rec := mOwner.findRecordByTypeId(mEBSTypeName, pr.tokStr);
1968 if (rec = nil) then
1969 begin
1970 mRecRefId := pr.tokStr;
1971 end
1972 else
1973 begin
1974 mRecRef := rec;
1975 mRecRefId := '';
1976 end;
1977 pr.expectId();
1978 end;
1979 mDefined := true;
1980 pr.expectDelim(';');
1981 exit;
1982 end
1983 else if (pr.isDelim('{')) then
1984 begin
1985 //rec := mOwner.mOwner.recType[mEBSTypeName]; // find in mapdef
1986 rec := nil;
1987 if (mEBSType <> nil) and (mEBSType is TDynRecord) then rec := (mEBSType as TDynRecord);
1988 if (rec = nil) then raise TDynParseException.CreateFmt(pr, 'record type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
1989 rc := rec.clone(mOwner.mHeaderRec);
1990 rc.mHeaderRec := mOwner.mHeaderRec;
1991 rc.parseValue(pr);
1992 mRecRef := rc;
1993 mDefined := true;
1994 if mOwner.addRecordByType(mEBSTypeName, rc) then
1995 begin
1996 raise TDynParseException.CreateFmt(pr, 'duplicate record with id ''%s'' for field ''%s'' in record ''%s''', [rc.mId, mName, mOwner.mTypeName]);
1997 end;
1998 pr.eatDelim(';'); // hack: allow (but don't require) semicolon after inline records
1999 exit;
2000 end;
2001 pr.expectDelim('{');
2002 end;
2003 TEBS.TEnum:
2004 begin
2005 //es := mOwner.mOwner.ebsType[mEBSTypeName]; // find in mapdef
2006 es := nil;
2007 if (mEBSType <> nil) and (mEBSType is TDynEBS) then es := (mEBSType as TDynEBS);
2008 if (es = nil) or (not es.mIsEnum) then raise TDynParseException.CreateFmt(pr, 'record enum type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
2009 tk := pr.expectId();
2010 if not es.has[tk] then raise TDynParseException.CreateFmt(pr, 'record enum value ''%s'' of type ''%s'' for field ''%s'' not found', [tk, mEBSTypeName, mName]);
2011 mIVal := es.field[tk];
2012 mSVal := tk;
2013 //writeln('ENUM ', mEBSName, '; element <', mSVal, '> with value ', mIVal);
2014 mDefined := true;
2015 pr.expectDelim(';');
2016 exit;
2017 end;
2018 TEBS.TBitSet:
2019 begin
2020 //es := mOwner.mOwner.ebsType[mEBSTypeName]; // find in mapdef
2021 es := nil;
2022 if (mEBSType <> nil) and (mEBSType is TDynEBS) then es := (mEBSType as TDynEBS);
2023 if (es = nil) or es.mIsEnum then raise TDynParseException.CreateFmt(pr, 'record bitset type ''%s'' for field ''%s'' not found', [mEBSTypeName, mName]);
2024 mIVal := 0;
2025 while true do
2026 begin
2027 tk := pr.expectId();
2028 if not es.has[tk] then raise TDynParseException.CreateFmt(pr, 'record bitset value ''%s'' of type ''%s'' for field ''%s'' not found', [tk, mEBSTypeName, mName]);
2029 mIVal := mIVal or es.field[tk];
2030 mSVal := tk;
2031 if (pr.tokType <> pr.TTDelim) or ((pr.tokChar <> '|') and (pr.tokChar <> '+')) then break;
2032 if mBitSetUnique then raise TDynParseException.CreateFmt(pr, 'record bitset of type ''%s'' for field ''%s'' expects only one value', [tk, mEBSTypeName, mName]);
2033 pr.skipToken(); // plus or pipe
2034 end;
2035 mDefined := true;
2036 pr.expectDelim(';');
2037 exit;
2038 end;
2039 else raise TDynParseException.Create(pr, 'ketmar forgot to handle some EBS type');
2040 end;
2042 case mType of
2043 TType.TBool:
2044 begin
2045 if pr.eatId('true') or pr.eatId('tan') or pr.eatId('yes') then mIVal := 1
2046 else if pr.eatId('false') or pr.eatId('ona') or pr.eatId('no') then mIVal := 0
2047 else raise TDynParseException.CreateFmt(pr, 'invalid bool value for field ''%s''', [mName]);
2048 mDefined := true;
2049 pr.expectDelim(';');
2050 exit;
2051 end;
2052 TType.TChar:
2053 begin
2054 if (mMaxDim = 0) then raise TDynParseException.CreateFmt(pr, 'invalid string size definition for field ''%s''', [mName]);
2055 mSVal := pr.expectStr(true);
2056 if (mMaxDim < 0) then
2057 begin
2058 // single char
2059 if (Length(mSVal) <> 1) then raise TDynParseException.CreateFmt(pr, 'invalid string size for field ''%s''', [mName]);
2060 mIVal := Integer(mSVal[1]);
2061 mSVal := '';
2062 end
2063 else
2064 begin
2065 // string
2066 if (Length(mSVal) > mMaxDim) then raise TDynParseException.CreateFmt(pr, 'invalid string size for field ''%s''', [mName]);
2067 end;
2068 mDefined := true;
2069 pr.expectDelim(';');
2070 exit;
2071 end;
2072 TType.TByte:
2073 begin
2074 parseInt(-128, 127);
2075 pr.expectDelim(';');
2076 exit;
2077 end;
2078 TType.TUByte:
2079 begin
2080 parseInt(0, 255);
2081 pr.expectDelim(';');
2082 exit;
2083 end;
2084 TType.TShort:
2085 begin
2086 parseInt(-32768, 32768);
2087 pr.expectDelim(';');
2088 exit;
2089 end;
2090 TType.TUShort:
2091 begin
2092 parseInt(0, 65535);
2093 pr.expectDelim(';');
2094 exit;
2095 end;
2096 TType.TInt:
2097 begin
2098 parseInt(Integer($80000000), $7fffffff);
2099 pr.expectDelim(';');
2100 exit;
2101 end;
2102 TType.TUInt:
2103 begin
2104 parseInt(0, $7fffffff); //FIXME
2105 pr.expectDelim(';');
2106 exit;
2107 end;
2108 TType.TString:
2109 begin
2110 mSVal := pr.expectStr(true);
2111 mDefined := true;
2112 pr.expectDelim(';');
2113 exit;
2114 end;
2115 TType.TPoint,
2116 TType.TSize:
2117 begin
2118 if pr.eatDelim('[') then edim := ']' else begin pr.expectDelim('('); edim := ')'; end;
2119 mIVal := pr.expectInt();
2120 if (mType = TType.TSize) then
2121 begin
2122 if (mIVal < 0) or (mIVal > 65535) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2123 end;
2124 mIVal2 := pr.expectInt();
2125 if (mType = TType.TSize) then
2126 begin
2127 if (mIVal2 < 0) or (mIVal2 > 65535) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2128 end;
2129 mDefined := true;
2130 pr.expectDelim(edim);
2131 pr.expectDelim(';');
2132 exit;
2133 end;
2134 TType.TColor:
2135 begin
2136 if pr.eatDelim('[') then edim := ']' else begin pr.expectDelim('('); edim := ')'; end;
2137 mIVal := pr.expectInt();
2138 if (mIVal < 0) or (mIVal > 255) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2139 mIVal2 := pr.expectInt();
2140 if (mIVal2 < 0) or (mIVal2 > 255) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2141 mIVal3 := pr.expectInt();
2142 if (mIVal3 < 0) or (mIVal3 > 255) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2143 if (pr.tokType = pr.TTInt) then
2144 begin
2145 mIVal4 := pr.expectInt();
2146 if (mIVal4 < 0) or (mIVal4 > 255) then raise TDynParseException.CreateFmt(pr, 'invalid %s value for field ''%s''', [getTypeName(mType), mName]);
2147 end
2148 else
2149 begin
2150 mIVal4 := 255;
2151 end;
2152 mDefined := true;
2153 pr.expectDelim(edim);
2154 pr.expectDelim(';');
2155 exit;
2156 end;
2157 TType.TList:
2158 begin
2159 assert(false);
2160 exit;
2161 end;
2162 TType.TTrigData:
2163 begin
2164 assert(false);
2165 exit;
2166 end;
2167 else raise TDynParseException.Create(pr, 'ketmar forgot to handle some field type');
2168 end;
2169 raise TDynParseException.CreateFmt(pr, 'cannot parse field ''%s'' yet', [mName]);
2170 end;
2173 // ////////////////////////////////////////////////////////////////////////// //
2174 constructor TDynRecord.Create (pr: TTextParser);
2175 begin
2176 if (pr = nil) then raise TDynParseException.Create(pr, 'cannot create record type without type definition');
2177 mId := '';
2178 mTypeName := '';
2179 mSize := 0;
2180 mFields := TDynFieldList.Create();
2181 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2182 mFieldsHash := hashNewStrInt();
2183 {$ENDIF}
2184 mTrigTypes := nil;
2185 mHeader := false;
2186 mHeaderRec := nil;
2187 mBinBlock := -1;
2188 mTagInt := 0;
2189 mTagPtr := nil;
2190 parseDef(pr);
2191 end;
2194 constructor TDynRecord.Create ();
2195 begin
2196 mTypeName := '';
2197 mSize := 0;
2198 mFields := TDynFieldList.Create();
2199 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2200 mFieldsHash := hashNewStrInt();
2201 {$ENDIF}
2202 mTrigTypes := nil;
2203 mHeader := false;
2204 mHeaderRec := nil;
2205 mTagInt := 0;
2206 mTagPtr := nil;
2207 mRec2Free := nil;
2208 end;
2211 destructor TDynRecord.Destroy ();
2212 var
2213 fld: TDynField;
2214 rec: TDynRecord;
2215 begin
2216 if (mRec2Free <> nil) then
2217 begin
2218 for rec in mRec2Free do
2219 begin
2220 if (rec <> self) then
2221 begin
2222 //writeln(formatstrf('freeing: 0x%08x; name=%s; id=%s', [Pointer(rec), rec.mName, rec.mId]));
2223 rec.Free();
2224 end;
2225 end;
2226 mRec2Free.Free();
2227 mRec2Free := nil;
2228 end;
2229 mTypeName := '';
2230 for fld in mFields do fld.Free();
2231 mFields.Free();
2232 mFields := nil;
2233 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2234 mFieldsHash.Free();
2235 mFieldsHash := nil;
2236 {$ENDIF}
2237 mTrigTypes := nil;
2238 mHeaderRec := nil;
2239 mTagInt := 0;
2240 mTagPtr := nil;
2241 inherited;
2242 end;
2245 procedure TDynRecord.regrec (rec: TDynRecord);
2246 begin
2247 if (rec <> nil) and (rec <> self) then
2248 begin
2249 if (mRec2Free = nil) then mRec2Free := TDynRecList.Create();
2250 mRec2Free.append(rec);
2251 end;
2252 end;
2255 procedure TDynRecord.addField (fld: TDynField); inline;
2256 begin
2257 if (fld = nil) then raise TDynRecException.Create('cannot append nil field to record');
2258 mFields.append(fld);
2259 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2260 if (Length(fld.mName) > 0) then mFieldsHash.put(fld.mName, mFields.count-1);
2261 {$ENDIF}
2262 end;
2265 function TDynRecord.addFieldChecked (fld: TDynField): Boolean; inline; // `true`: duplicate name
2266 begin
2267 result := false;
2268 if (fld = nil) then raise TDynRecException.Create('cannot append nil field to record');
2269 {$IF not DEFINED(XDYNREC_USE_FIELDHASH)}
2270 if (Length(fld.mName) > 0) then result := hasByName(fld.mName);
2271 {$ENDIF}
2272 mFields.append(fld);
2273 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2274 if (Length(fld.mName) > 0) then result := mFieldsHash.put(fld.mName, mFields.count-1);
2275 {$ENDIF}
2276 end;
2279 function TDynRecord.findByName (const aname: AnsiString): Integer; inline;
2280 begin
2281 {$IF DEFINED(XDYNREC_USE_FIELDHASH)}
2282 if not mFieldsHash.get(aname, result) then result := -1;
2283 {$ELSE}
2284 result := 0;
2285 while (result < mFields.count) do
2286 begin
2287 if StrEqu(aname, mFields[result].mName) then exit;
2288 Inc(result);
2289 end;
2290 result := -1;
2291 {$ENDIF}
2292 end;
2295 function TDynRecord.hasByName (const aname: AnsiString): Boolean; inline;
2296 begin
2297 result := (findByName(aname) >= 0);
2298 end;
2301 function TDynRecord.getFieldByName (const aname: AnsiString): TDynField; inline;
2302 var
2303 f: Integer;
2304 begin
2305 f := findByName(aname);
2306 if (f >= 0) then result := mFields[f] else result := nil;
2307 end;
2310 function TDynRecord.getFieldAt (idx: Integer): TDynField; inline;
2311 begin
2312 if (idx >= 0) and (idx < mFields.count) then result := mFields[idx] else result := nil;
2313 end;
2316 function TDynRecord.getCount (): Integer; inline;
2317 begin
2318 result := mFields.count;
2319 end;
2322 function TDynRecord.getIsTrigData (): Boolean; inline;
2323 begin
2324 result := (Length(mTrigTypes) > 0);
2325 end;
2328 function TDynRecord.getIsForTrig (const aname: AnsiString): Boolean; inline;
2329 var
2330 f: Integer;
2331 begin
2332 result := true;
2333 for f := 0 to High(mTrigTypes) do if StrEqu(mTrigTypes[f], aname) then exit;
2334 result := false;
2335 end;
2338 function TDynRecord.getForTrigCount (): Integer; inline;
2339 begin
2340 result := Length(mTrigTypes);
2341 end;
2344 function TDynRecord.getForTrigAt (idx: Integer): AnsiString; inline;
2345 begin
2346 if (idx >= 0) and (idx < Length(mTrigTypes)) then result := mTrigTypes[idx] else result := '';
2347 end;
2350 function TDynRecord.clone (registerIn: TDynRecord): TDynRecord;
2351 var
2352 fld: TDynField;
2353 f: Integer;
2354 begin
2355 result := TDynRecord.Create();
2356 result.mOwner := mOwner;
2357 result.mId := mId;
2358 result.mTypeName := mTypeName;
2359 result.mTip := mTip;
2360 result.mHelp := mHelp;
2361 result.mSize := mSize;
2362 result.mHeader := mHeader;
2363 result.mBinBlock := mBinBlock;
2364 result.mHeaderRec := mHeaderRec;
2365 result.mTagInt := mTagInt;
2366 result.mTagPtr := mTagPtr;
2367 if (mFields.count > 0) then
2368 begin
2369 result.mFields.capacity := mFields.count;
2370 for fld in mFields do result.addField(fld.clone(result, registerIn));
2371 end;
2372 SetLength(result.mTrigTypes, Length(mTrigTypes));
2373 for f := 0 to High(mTrigTypes) do result.mTrigTypes[f] := mTrigTypes[f];
2374 if (registerIn <> nil) then registerIn.regrec(result);
2375 end;
2378 function TDynRecord.findRecordByTypeId (const atypename, aid: AnsiString): TDynRecord;
2379 var
2380 fld: TDynField;
2381 idx: Integer;
2382 begin
2383 result := nil;
2384 if (Length(aid) = 0) then exit;
2385 // find record data
2386 fld := mHeaderRec.field[atypename];
2387 if (fld = nil) then exit;
2388 if (fld.mType <> fld.TType.TList) then raise TDynRecException.CreateFmt('cannot get record of type ''%s'' due to name conflict with ordinary field', [atypename]);
2389 // find by id
2390 if (fld.mRVal <> nil) then
2391 begin
2392 if fld.mRHash.get(aid, idx) then begin result := fld.mRVal[idx]; exit; end;
2393 end;
2394 // alas
2395 end;
2398 function TDynRecord.findRecordNumByType (const atypename: AnsiString; rc: TDynRecord): Integer;
2399 var
2400 fld: TDynField;
2401 idx: Integer;
2402 begin
2403 result := -1;
2404 // find record data
2405 fld := mHeaderRec.field[atypename];
2406 if (fld = nil) then exit;
2407 if (fld.mType <> fld.TType.TList) then raise TDynRecException.CreateFmt('cannot get record of type ''%s'' due to name conflict with ordinary field', [atypename]);
2408 // find by ref
2409 if (fld.mRVal <> nil) then
2410 begin
2411 for idx := 0 to fld.mRVal.count-1 do
2412 begin
2413 if (fld.mRVal[idx] = rc) then begin result := idx; exit; end;
2414 end;
2415 end;
2416 // alas
2417 end;
2420 function TDynRecord.addRecordByType (const atypename: AnsiString; rc: TDynRecord): Boolean;
2421 var
2422 fld: TDynField;
2423 begin
2424 // find record data
2425 fld := mHeaderRec.field[atypename];
2426 if (fld = nil) then
2427 begin
2428 // first record
2429 fld := TDynField.Create(atypename, TDynField.TType.TList);
2430 fld.mOwner := mHeaderRec;
2431 mHeaderRec.addField(fld);
2432 end;
2433 if (fld.mType <> fld.TType.TList) then raise TDynRecException.CreateFmt('cannot append record of type ''%s'' due to name conflict with ordinary field', [atypename]);
2434 // append
2435 if (fld.mRVal = nil) then
2436 begin
2437 fld.mRVal := TDynRecList.Create();
2438 fld.mRHash := THashStrInt.Create();
2439 end;
2440 result := fld.addListItem(rc);
2441 end;
2444 function TDynRecord.isSimpleEqu (rec: TDynRecord): Boolean;
2445 var
2446 f: Integer;
2447 begin
2448 if (rec = nil) then begin result := false; exit; end; // self.mRecRef can't be `nil` here
2449 if (rec = self) then begin result := true; exit; end;
2450 if (mFields.count <> rec.mFields.count) then begin result := false; exit; end;
2451 result := false;
2452 for f := 0 to mFields.count-1 do
2453 begin
2454 if not mFields[f].isSimpleEqu(rec.mFields[f]) then exit;
2455 end;
2456 result := true;
2457 end;
2460 function TDynRecord.trigTypeField (): TDynField;
2461 var
2462 fld: TDynField;
2463 es: TDynEBS = nil;
2464 begin
2465 for fld in mFields do
2466 begin
2467 if (fld.mEBS <> TDynField.TEBS.TEnum) then continue;
2468 if not (fld.mEBSType is TDynEBS) then continue;
2469 es := (fld.mEBSType as TDynEBS);
2470 assert(es <> nil);
2471 if StrEqu(es.mTypeName, 'TriggerType') then begin result := fld; exit; end;
2472 end;
2473 result := nil;
2474 end;
2477 // number of records of the given instance
2478 function TDynRecord.instanceCount (const atypename: AnsiString): Integer;
2479 var
2480 fld: TDynField;
2481 begin
2482 result := 0;
2483 fld := field[atypename];
2484 if (fld <> nil) and (fld.mType = fld.TType.TList) then result := fld.mRVal.count;
2485 end;
2488 function TDynRecord.newTypedRecord (const atypename, aid: AnsiString): TDynRecord;
2489 var
2490 trc: TDynRecord;
2491 fld: TDynField;
2492 begin
2493 if not mHeader then raise TDynRecException.Create('cannot create new records with non-header');
2494 if (Length(aid) = 0) then raise TDynRecException.CreateFmt('cannot create new record of type ''%s'' without id', [atypename]);
2495 trc := mapdef.recType[atypename];
2496 if (trc = nil) then begin result := nil; exit; end;
2497 // check if aid is unique
2498 fld := field[atypename];
2499 if (fld <> nil) and (fld.getListItem(aid) <> nil) then raise TDynRecException.CreateFmt('cannot create record of type ''%s'' with duplicate id ''%s''', [atypename, aid]);
2500 result := trc.clone(self);
2501 result.mId := aid;
2502 addRecordByType(atypename, result);
2503 end;
2506 procedure TDynRecord.clearRefRecs (rec: TDynRecord);
2507 procedure clearRefs (fld: TDynField);
2508 var
2509 rc: TDynRecord;
2510 begin
2511 if (fld = nil) then exit;
2512 if (fld.mRecRef = rec) then fld.mRecRef := nil;
2513 if (fld.mType = fld.TType.TList) then for rc in fld.mRVal do rc.clearRefRecs(rec);
2514 end;
2515 var
2516 fld: TDynField;
2517 begin
2518 if (rec = nil) or (mFields = nil) then exit;
2519 for fld in mFields do clearRefs(fld);
2520 end;
2523 // remove record with the given type and id
2524 // return `true` if record was successfully found and removed
2525 // this will do all necessary recref cleanup too
2526 function TDynRecord.removeTypedRecord (const atypename, aid: AnsiString): Boolean;
2527 var
2528 trc, rec: TDynRecord;
2529 fld: TDynField;
2530 f: Integer;
2531 doFree: Boolean = false;
2532 begin
2533 result := false;
2534 if not mHeader then raise TDynRecException.Create('cannot remove records with non-header');
2535 if (Length(aid) = 0) then exit;
2536 trc := mapdef.recType[atypename];
2537 if (trc = nil) then exit;
2538 fld := field[atypename];
2539 if (fld = nil) then exit;
2540 rec := fld.removeListItem(aid);
2541 if (rec = nil) then exit;
2542 clearRefRecs(rec);
2543 for f := 0 to mRec2Free.count-1 do
2544 begin
2545 if (mRec2Free[f] = rec) then
2546 begin
2547 mRec2Free[f] := nil;
2548 doFree := true;
2549 end;
2550 end;
2551 if doFree then rec.Free();
2552 end;
2555 function TDynRecord.getUserVar (const aname: AnsiString): Variant;
2556 var
2557 fld: TDynField;
2558 begin
2559 fld := getFieldByName(aname);
2560 if (fld = nil) then result := Unassigned else result := fld.value;
2561 end;
2564 procedure TDynRecord.setUserVar (const aname: AnsiString; val: Variant);
2565 var
2566 fld: TDynField;
2567 begin
2568 fld := getFieldByName(aname);
2569 if (fld = nil) then
2570 begin
2571 if (Length(aname) = 0) then raise TDynRecException.Create('cannot create nameless user field');
2572 fld := TDynField.Create(aname, val);
2573 fld.mOwner := self;
2574 fld.mInternal := true;
2575 addField(fld);
2576 end
2577 else
2578 begin
2579 fld.value := val;
2580 end;
2581 end;
2584 procedure TDynRecord.parseDef (pr: TTextParser);
2585 var
2586 fld: TDynField;
2587 tdn: AnsiString;
2588 begin
2589 if pr.eatId('TriggerData') then
2590 begin
2591 pr.expectId('for');
2592 if pr.eatDelim('(') then
2593 begin
2594 while true do
2595 begin
2596 while (pr.eatDelim(',')) do begin end;
2597 if pr.eatDelim(')') then break;
2598 tdn := pr.expectId();
2599 if isForTrig[tdn] then raise TDynParseException.CreateFmt(pr, 'duplicate trigdata ''%s'' trigtype ''%s''', [mTypeName, tdn]);
2600 SetLength(mTrigTypes, Length(mTrigTypes)+1);
2601 mTrigTypes[High(mTrigTypes)] := tdn;
2602 end;
2603 end
2604 else
2605 begin
2606 tdn := pr.expectId();
2607 SetLength(mTrigTypes, 1);
2608 mTrigTypes[0] := tdn;
2609 end;
2610 mTypeName := 'TriggerData';
2611 end
2612 else
2613 begin
2614 mTypeName := pr.expectIdOrStr();
2615 while (not pr.isDelim('{')) do
2616 begin
2617 if pr.eatId('header') then begin mHeader := true; continue; end;
2618 if pr.eatId('size') then
2619 begin
2620 if (mSize > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate `size` in record ''%s''', [mTypeName]);
2621 mSize := pr.expectInt();
2622 if (mSize < 1) then raise TDynParseException.CreateFmt(pr, 'invalid record ''%s'' size: %d', [mTypeName, mSize]);
2623 pr.expectId('bytes');
2624 continue;
2625 end;
2626 if pr.eatId('binblock') then
2627 begin
2628 if (mBinBlock >= 0) then raise TDynParseException.CreateFmt(pr, 'duplicate `binblock` in record ''%s''', [mTypeName]);
2629 mBinBlock := pr.expectInt();
2630 if (mBinBlock < 1) then raise TDynParseException.CreateFmt(pr, 'invalid record ''%s'' binblock: %d', [mTypeName, mBinBlock]);
2631 continue;
2632 end;
2633 if pr.eatId('tip') then
2634 begin
2635 if (Length(mTip) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate tip definition for record ''%s''', [mTypeName]);
2636 mTip := pr.expectStr(false);
2637 continue;
2638 end;
2639 if pr.eatId('help') then
2640 begin
2641 if (Length(mHelp) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate help definition for record ''%s''', [mTypeName]);
2642 mHelp := pr.expectStr(false);
2643 continue;
2644 end;
2645 end;
2646 end;
2648 pr.expectDelim('{');
2649 // load fields
2650 while (not pr.isDelim('}')) do
2651 begin
2652 fld := TDynField.Create(pr);
2653 // append
2654 fld.mOwner := self;
2655 if addFieldChecked(fld) then
2656 begin
2657 fld.Free();
2658 raise TDynParseException.CreateFmt(pr, 'duplicate field ''%s''', [fld.name]);
2659 end;
2660 // done with field
2661 end;
2662 pr.expectDelim('}');
2663 end;
2666 function TDynRecord.definition (): AnsiString;
2667 var
2668 f: Integer;
2669 begin
2670 if isTrigData then
2671 begin
2672 // trigger data
2673 result := 'TriggerData for ';
2674 if (Length(mTrigTypes) > 1) then
2675 begin
2676 result += '(';
2677 for f := 0 to High(mTrigTypes) do
2678 begin
2679 if (f <> 0) then result += ', ';
2680 result += mTrigTypes[f];
2681 end;
2682 result += ')';
2683 end
2684 else
2685 begin
2686 result += mTrigTypes[0];
2687 end;
2688 end
2689 else
2690 begin
2691 // record
2692 result := quoteStr(mTypeName);
2693 if (mSize >= 0) then result += Format(' size %d bytes', [mSize]);
2694 if mHeader then result += ' header';
2695 end;
2696 result += ' {'#10;
2697 for f := 0 to mFields.count-1 do
2698 begin
2699 result += ' ';
2700 result += mFields[f].definition;
2701 result += ';'#10;
2702 end;
2703 result += '}';
2704 end;
2707 procedure TDynRecord.parseBinValue (st: TStream; forceData: Boolean=false);
2708 var
2709 sign: string[4];
2710 btype: Integer;
2711 bsize: Integer;
2712 buf: PByte = nil;
2713 loaded: array[0..255] of Boolean;
2714 rec, rect: TDynRecord;
2715 fld: TDynField;
2716 f: Integer;
2717 mst: TSFSMemoryChunkStream = nil;
2719 procedure linkNames (rec: TDynRecord);
2720 var
2721 fld: TDynField;
2722 rt: TDynRecord;
2723 begin
2724 //writeln('*** rec: ', rec.mName, '.', rec.mId, ' (', rec.mFields.count, ')');
2725 for fld in rec.mFields do
2726 begin
2727 if (fld.mType = TDynField.TType.TTrigData) then
2728 begin
2729 if (fld.mRecRef <> nil) then linkNames(fld.mRecRef);
2730 continue;
2731 end;
2732 if (Length(fld.mRecRefId) = 0) then continue;
2733 assert(fld.mEBSType <> nil);
2734 rt := findRecordByTypeId(fld.mEBSTypeName, fld.mRecRefId);
2735 if (rt = nil) then
2736 begin
2737 if assigned(DynWarningCB) then
2738 begin
2739 DynWarningCB(formatstrf('record of type ''%s'' with id ''%s'' links to inexistant record of type ''%s'' with id ''%s''', [rec.mTypeName, rec.mId, fld.mEBSTypeName, fld.mRecRefId]), -1, -1);
2740 end;
2741 //raise TDynRecException.CreateFmt('record of type ''%s'' with id ''%s'' links to inexistant record of type ''%s'' with id ''%s''', [rec.mName, rec.mId, fld.mEBSTypeName, fld.mRecRefId]);
2742 end;
2743 //writeln(' ', rec.mName, '.', rec.mId, ':', fld.mName, ' -> ', rt.mName, '.', rt.mId, ' (', fld.mEBSTypeName, '.', fld.mRecRefId, ')');
2744 fld.mRecRefId := '';
2745 fld.mRecRef := rt;
2746 fld.mDefined := true;
2747 end;
2748 for fld in rec.mFields do
2749 begin
2750 //if (fld.mName = 'ambient_color') then writeln('****', fld.mName);
2751 fld.fixDefaultValue(); // just in case
2752 end;
2753 end;
2755 begin
2756 for f := 0 to High(loaded) do loaded[f] := false;
2757 mst := TSFSMemoryChunkStream.Create(nil, 0);
2758 try
2759 if mHeader and not forceData then
2760 begin
2761 // parse map file as sequence of blocks
2762 sign[0] := #4;
2763 st.ReadBuffer(sign[1], 4);
2764 if (sign <> 'MAP'#1) then raise TDynRecException.Create('invalid binary map signature');
2765 // parse blocks
2766 while (st.position < st.size) do
2767 begin
2768 btype := readByte(st);
2769 if (btype = 0) then break; // no more blocks
2770 readLongWord(st); // reserved
2771 bsize := readLongInt(st);
2772 {$IF DEFINED(D2D_XDYN_DEBUG)}writeln('btype=', btype, '; bsize=', bsize);{$ENDIF}
2773 if (bsize < 0) or (bsize > $1fffffff) then raise TDynRecException.CreateFmt('block of type %d has invalid size %d', [btype, bsize]);
2774 if loaded[btype] then raise TDynRecException.CreateFmt('block of type %d already loaded', [btype]);
2775 loaded[btype] := true;
2776 // find record type for this block
2777 rect := nil;
2778 for rec in mOwner.recTypes do if (rec.mBinBlock = btype) then begin rect := rec; break; end;
2779 if (rect = nil) then raise TDynRecException.CreateFmt('block of type %d has no corresponding record', [btype]);
2780 //writeln('found type ''', rec.mName, ''' for block type ', btype);
2781 if (rec.mSize = 0) or ((bsize mod rec.mSize) <> 0) then raise TDynRecException.CreateFmt('block of type %d has invalid number of records', [btype]);
2782 // header?
2783 if (rect.mHeader) then
2784 begin
2785 if (bsize <> mSize) then raise TDynRecException.CreateFmt('header block of type %d has invalid number of records', [btype]);
2786 GetMem(buf, bsize);
2787 st.ReadBuffer(buf^, bsize);
2788 mst.setup(buf, mSize);
2789 parseBinValue(mst, true); // force parsing data
2790 end
2791 else
2792 begin
2793 // create list for this type
2794 fld := TDynField.Create(rec.mTypeName, TDynField.TType.TList);
2795 fld.mOwner := self;
2796 addField(fld);
2797 if (bsize > 0) then
2798 begin
2799 GetMem(buf, bsize);
2800 st.ReadBuffer(buf^, bsize);
2801 for f := 0 to (bsize div rec.mSize)-1 do
2802 begin
2803 mst.setup(buf+f*rec.mSize, rec.mSize);
2804 rec := rect.clone(self);
2805 rec.mHeaderRec := self;
2806 rec.parseBinValue(mst);
2807 rec.mId := Format('%s%d', [rec.mTypeName, f]);
2808 fld.addListItem(rec);
2809 //writeln('parsed ''', rec.mId, '''...');
2810 end;
2811 end;
2812 end;
2813 FreeMem(buf);
2814 buf := nil;
2815 //st.position := st.position+bsize;
2816 end;
2817 // link fields
2818 for fld in mFields do
2819 begin
2820 if (fld.mType <> TDynField.TType.TList) then continue;
2821 for rec in fld.mRVal do linkNames(rec);
2822 end;
2823 exit;
2824 end;
2826 // read fields
2827 if StrEqu(mTypeName, 'TriggerData') then mSize := Integer(st.size-st.position);
2828 if (mSize < 1) then raise TDynRecException.CreateFmt('cannot read record of type ''%s'' with unknown size', [mTypeName]);
2829 GetMem(buf, mSize);
2830 st.ReadBuffer(buf^, mSize);
2831 for fld in mFields do
2832 begin
2833 if fld.mInternal then continue;
2834 if (fld.mBinOfs < 0) then continue;
2835 if (fld.mBinOfs >= st.size) then raise TDynRecException.CreateFmt('record of type ''%s'' has invalid field ''%s''', [fld.mName]);
2836 mst.setup(buf+fld.mBinOfs, mSize-fld.mBinOfs);
2837 //writeln('parsing ''', mName, '.', fld.mName, '''...');
2838 fld.parseBinValue(mst);
2839 end;
2840 // fix default values
2841 for fld in mFields do
2842 begin
2843 if (fld.mType = TDynField.TType.TList) then continue;
2844 fld.fixDefaultValue();
2845 end;
2846 finally
2847 mst.Free();
2848 if (buf <> nil) then FreeMem(buf);
2849 end;
2850 end;
2853 procedure TDynRecord.writeBinTo (var hasLostData: Boolean; st: TStream; trigbufsz: Integer=-1; onlyFields: Boolean=false);
2854 var
2855 fld: TDynField;
2856 rec, rv: TDynRecord;
2857 buf: PByte = nil;
2858 ws: TStream = nil;
2859 blk, blkmax: Integer;
2860 bufsz: Integer = 0;
2861 blksz: Integer;
2862 begin
2863 if (trigbufsz < 0) then
2864 begin
2865 if (mBinBlock < 1) then raise TDynRecException.Create('cannot write binary record without block number');
2866 if (mSize < 1) then raise TDynRecException.Create('cannot write binary record without size');
2867 bufsz := mSize;
2868 end
2869 else
2870 begin
2871 bufsz := trigbufsz;
2872 end;
2873 try
2874 GetMem(buf, bufsz);
2875 FillChar(buf^, bufsz, 0);
2876 ws := TSFSMemoryChunkStream.Create(buf, bufsz);
2878 // write normal fields
2879 for fld in mFields do
2880 begin
2881 // record list?
2882 if (fld.mType = fld.TType.TList) then continue; // later
2883 if fld.mInternal then continue;
2884 if (fld.mBinOfs < 0) then
2885 begin
2886 if not fld.equToDefault then hasLostData := true;
2887 continue;
2888 end;
2889 if (fld.mBinOfs >= bufsz) then raise TDynRecException.Create('binary value offset is outside of the buffer');
2890 TSFSMemoryChunkStream(ws).setup(buf+fld.mBinOfs, bufsz-fld.mBinOfs);
2891 //writeln('writing field <', fld.mName, '>');
2892 fld.writeBinTo(hasLostData, ws);
2893 end;
2895 // write block with normal fields
2896 if mHeader and not onlyFields then
2897 begin
2898 //writeln('writing header...');
2899 // signature and version
2900 writeIntBE(st, LongWord($4D415001));
2901 writeInt(st, Byte(mBinBlock)); // type
2902 writeInt(st, LongWord(0)); // reserved
2903 writeInt(st, LongWord(bufsz)); // size
2904 end;
2905 st.WriteBuffer(buf^, bufsz);
2907 ws.Free(); ws := nil;
2908 FreeMem(buf); buf := nil;
2910 // write other blocks, if any
2911 if mHeader and not onlyFields then
2912 begin
2913 // calculate blkmax
2914 blkmax := 0;
2915 for fld in mFields do
2916 begin
2917 // record list?
2918 if (fld.mType = fld.TType.TList) then
2919 begin
2920 if (fld.mRVal = nil) or (fld.mRVal.count = 0) then continue;
2921 rec := mOwner.recType[fld.mName];
2922 if (rec = nil) then continue;
2923 if (rec.mBinBlock <= 0) then continue;
2924 if (blkmax < rec.mBinBlock) then blkmax := rec.mBinBlock;
2925 end;
2926 end;
2927 // write blocks
2928 for blk := 1 to blkmax do
2929 begin
2930 if (blk = mBinBlock) then continue;
2931 ws := nil;
2932 for fld in mFields do
2933 begin
2934 // record list?
2935 if (fld.mType = fld.TType.TList) then
2936 begin
2937 if (fld.mRVal = nil) or (fld.mRVal.count = 0) then continue;
2938 rec := mOwner.recType[fld.mName];
2939 if (rec = nil) then continue;
2940 if (rec.mBinBlock <> blk) then continue;
2941 if (ws = nil) then ws := TMemoryStream.Create();
2942 for rv in fld.mRVal do rv.writeBinTo(hasLostData, ws);
2943 end;
2944 end;
2945 // flush block
2946 if (ws <> nil) then
2947 begin
2948 blksz := Integer(ws.position);
2949 ws.position := 0;
2950 writeInt(st, Byte(blk)); // type
2951 writeInt(st, LongWord(0)); // reserved
2952 writeInt(st, LongWord(blksz)); // size
2953 st.CopyFrom(ws, blksz);
2954 ws.Free();
2955 ws := nil;
2956 end;
2957 end;
2958 // write end marker
2959 writeInt(st, Byte(0));
2960 writeInt(st, LongWord(0));
2961 writeInt(st, LongWord(0));
2962 end;
2963 finally
2964 ws.Free();
2965 if (buf <> nil) then FreeMem(buf);
2966 end;
2967 end;
2970 procedure TDynRecord.writeTo (wr: TTextWriter; putHeader: Boolean=true);
2971 var
2972 fld: TDynField;
2973 rec: TDynRecord;
2974 putTypeComment: Boolean;
2975 f: Integer;
2976 begin
2977 if putHeader then
2978 begin
2979 wr.put(mTypeName);
2980 if (Length(mId) > 0) then begin wr.put(' '); wr.put(mId); end;
2981 wr.put(' ');
2982 end;
2983 wr.put('{'#10);
2984 wr.indent();
2985 try
2986 for fld in mFields do
2987 begin
2988 // record list?
2989 if (fld.mType = fld.TType.TList) then
2990 begin
2991 if not mHeader then raise TDynRecException.Create('record list in non-header record');
2992 if (fld.mRVal <> nil) and (fld.mRVal.count > 0) then
2993 begin
2994 putTypeComment := true;
2995 for rec in fld.mRVal do
2996 begin
2997 if (rec = nil) or (Length(rec.mId) = 0) then continue;
2998 if putTypeComment then
2999 begin
3000 wr.put(#10);
3001 if (80-wr.curIndent*2 >= 2) then
3002 begin
3003 wr.putIndent();
3004 for f := wr.curIndent to 80-wr.curIndent do wr.put('/');
3005 wr.put(#10);
3006 end;
3007 putTypeComment := false;
3008 wr.putIndent();
3009 wr.put('// ');
3010 wr.put(fld.name);
3011 wr.put(#10);
3012 end
3013 else
3014 begin
3015 wr.put(#10);
3016 end;
3017 wr.putIndent();
3018 rec.writeTo(wr, true);
3019 end;
3020 end;
3021 continue;
3022 end;
3023 if fld.mInternal then continue;
3024 if (not fld.mWriteDef) and fld.isDefaultValue then continue;
3025 wr.putIndent();
3026 fld.writeTo(wr);
3027 end;
3028 finally
3029 wr.unindent();
3030 end;
3031 wr.putIndent();
3032 wr.put('}'#10);
3033 end;
3036 {$IF DEFINED(D2D_DYNREC_PROFILER)}
3037 var
3038 profCloneRec: UInt64 = 0;
3039 profFindRecType: UInt64 = 0;
3040 profFieldSearching: UInt64 = 0;
3041 profListDupChecking: UInt64 = 0;
3042 profAddRecByType: UInt64 = 0;
3043 profFieldValParsing: UInt64 = 0;
3044 profFixDefaults: UInt64 = 0;
3045 profRecValParse: UInt64 = 0;
3047 procedure xdynDumpProfiles ();
3048 begin
3049 writeln('=== XDYNREC PROFILES ===');
3050 writeln('record cloning: ', profCloneRec div 1000, '.', profCloneRec mod 1000, ' milliseconds');
3051 writeln('findRecType : ', profFindRecType div 1000, '.', profFindRecType mod 1000, ' milliseconds');
3052 writeln('field[] : ', profFieldSearching div 1000, '.', profFieldSearching mod 1000, ' milliseconds');
3053 writeln('list dup check: ', profListDupChecking div 1000, '.', profListDupChecking mod 1000, ' milliseconds');
3054 writeln('addRecByType : ', profAddRecByType div 1000, '.', profAddRecByType mod 1000, ' milliseconds');
3055 writeln('field valparse: ', profFieldValParsing div 1000, '.', profFieldValParsing mod 1000, ' milliseconds');
3056 writeln('fix defaults : ', profFixDefaults div 1000, '.', profFixDefaults mod 1000, ' milliseconds');
3057 writeln('recvalparse : ', profRecValParse div 1000, '.', profRecValParse mod 1000, ' milliseconds');
3058 end;
3059 {$ENDIF}
3062 procedure TDynRecord.parseValue (pr: TTextParser; beginEaten: Boolean=false);
3063 var
3064 fld: TDynField;
3065 rec: TDynRecord = nil;
3066 trc{, rv}: TDynRecord;
3067 {$IF DEFINED(D2D_DYNREC_PROFILER)}
3068 stt, stall: UInt64;
3069 {$ENDIF}
3071 procedure linkNames (rec: TDynRecord);
3072 var
3073 fld: TDynField;
3074 rt, rvc: TDynRecord;
3075 begin
3076 if (rec = nil) then exit;
3077 //writeln('*** rec: ', rec.mName, '.', rec.mId, ' (', rec.mFields.count, ')');
3078 for fld in rec.mFields do
3079 begin
3080 if (fld.mType = TDynField.TType.TList) then
3081 begin
3082 for rvc in fld.mRVal do linkNames(rvc);
3083 end;
3084 if (fld.mType = TDynField.TType.TTrigData) then
3085 begin
3086 //if (fld.mRecRef <> nil) then linkNames(fld.mRecRef);
3087 continue;
3088 end;
3089 if (Length(fld.mRecRefId) = 0) then continue;
3090 assert(fld.mEBSType <> nil);
3091 rt := findRecordByTypeId(fld.mEBSTypeName, fld.mRecRefId);
3092 if (rt = nil) then
3093 begin
3094 //e_LogWritefln('record of type ''%s'' with id ''%s'' links to inexistant record of type ''%s'' with id ''%s''', [rec.mName, rec.mId, fld.mEBSTypeName, fld.mRecRefId], MSG_WARNING);
3095 raise TDynParseException.CreateFmt(pr, 'record of type ''%s'' with id ''%s'' links to inexistant record of type ''%s'' with id ''%s''', [rec.mTypeName, rec.mId, fld.mEBSTypeName, fld.mRecRefId]);
3096 end;
3097 //writeln(' ', rec.mName, '.', rec.mId, ':', fld.mName, ' -> ', rt.mName, '.', rt.mId, ' (', fld.mEBSTypeName, '.', fld.mRecRefId, ')');
3098 fld.mRecRefId := '';
3099 fld.mRecRef := rt;
3100 fld.mDefined := true;
3101 end;
3102 for fld in rec.mFields do
3103 begin
3104 //writeln(' ', fld.mName);
3105 fld.fixDefaultValue();
3106 end;
3107 end;
3109 begin
3110 if (mOwner = nil) then raise TDynParseException.CreateFmt(pr, 'can''t parse record ''%s'' value without owner', [mTypeName]);
3112 {$IF DEFINED(D2D_DYNREC_PROFILER)}stall := getTimeMicro();{$ENDIF}
3114 // not a header?
3115 if not mHeader then
3116 begin
3117 // id?
3118 if (not beginEaten) and (pr.tokType = pr.TTId) then mId := pr.expectId();
3119 end
3120 else
3121 begin
3122 assert(mHeaderRec = self);
3123 end;
3125 //writeln('parsing record <', mName, '>');
3126 if not beginEaten then pr.expectDelim('{');
3127 while (not pr.isDelim('}')) do
3128 begin
3129 if (pr.tokType <> pr.TTId) then raise TDynParseException.Create(pr, 'identifier expected');
3130 //writeln('<', mName, '.', pr.tokStr, '>');
3132 // records
3133 if mHeader then
3134 begin
3135 // add records with this type (if any)
3136 {$IF DEFINED(D2D_DYNREC_PROFILER)}stt := getTimeMicro();{$ENDIF}
3137 trc := mOwner.recType[pr.tokStr];
3138 {$IF DEFINED(D2D_DYNREC_PROFILER)}profFindRecType := getTimeMicro()-stt;{$ENDIF}
3139 if (trc <> nil) then
3140 begin
3141 {$IF DEFINED(D2D_DYNREC_PROFILER)}stt := getTimeMicro();{$ENDIF}
3142 rec := trc.clone(mHeaderRec);
3143 {$IF DEFINED(D2D_DYNREC_PROFILER)}profCloneRec := getTimeMicro()-stt;{$ENDIF}
3144 rec.mHeaderRec := mHeaderRec;
3145 // on error, it will be freed by memowner
3146 pr.skipToken();
3147 rec.parseValue(pr);
3148 {$IF DEFINED(D2D_DYNREC_PROFILER)}stt := getTimeMicro();{$ENDIF}
3149 addRecordByType(rec.mTypeName, rec);
3150 {$IF DEFINED(D2D_DYNREC_PROFILER)}profAddRecByType := getTimeMicro()-stt;{$ENDIF}
3151 continue;
3152 end;
3153 end;
3155 // fields
3156 {$IF DEFINED(D2D_DYNREC_PROFILER)}stt := getTimeMicro();{$ENDIF}
3157 //writeln('0: <', mName, '.', pr.tokStr, '>');
3158 fld := field[pr.tokStr];
3159 //writeln('1: <', mName, '.', pr.tokStr, '>');
3160 {$IF DEFINED(D2D_DYNREC_PROFILER)}profFieldSearching := getTimeMicro()-stt;{$ENDIF}
3161 if (fld <> nil) then
3162 begin
3163 //writeln('2: <', mName, '.', pr.tokStr, '>');
3164 if fld.defined then raise TDynParseException.CreateFmt(pr, 'duplicate field ''%s'' in record ''%s''', [fld.mName, mTypeName]);
3165 if fld.internal then raise TDynParseException.CreateFmt(pr, 'internal field ''%s'' in record ''%s''', [fld.mName, mTypeName]);
3166 pr.skipToken(); // skip field name
3167 //writeln('3: <', mName, '.', pr.tokStr, '>:', pr.tokType);
3168 {$IF DEFINED(D2D_DYNREC_PROFILER)}stt := getTimeMicro();{$ENDIF}
3169 fld.parseValue(pr);
3170 {$IF DEFINED(D2D_DYNREC_PROFILER)}profFieldValParsing := getTimeMicro()-stt;{$ENDIF}
3171 continue;
3172 end;
3174 // something is wrong
3175 raise TDynParseException.CreateFmt(pr, 'unknown field ''%s'' in record ''%s''', [pr.tokStr, mTypeName]);
3176 end;
3177 pr.expectDelim('}');
3179 if mHeader then
3180 begin
3181 // link fields
3182 linkNames(self);
3183 for rec in mRec2Free do if (rec <> nil) then linkNames(rec);
3184 end;
3185 //writeln('done parsing record <', mName, '>');
3186 //{$IF DEFINED(D2D_DYNREC_PROFILER)}writeln('stall: ', getTimeMicro()-stall);{$ENDIF}
3187 {$IF DEFINED(D2D_DYNREC_PROFILER)}profRecValParse := getTimeMicro()-stall;{$ENDIF}
3188 end;
3191 // ////////////////////////////////////////////////////////////////////////// //
3192 constructor TDynEBS.Create (pr: TTextParser);
3193 begin
3194 cleanup();
3195 parseDef(pr);
3196 end;
3199 destructor TDynEBS.Destroy ();
3200 begin
3201 cleanup();
3202 inherited;
3203 end;
3206 procedure TDynEBS.cleanup ();
3207 begin
3208 mIsEnum := false;
3209 mTypeName := '';
3210 mTip := '';
3211 mHelp := '';
3212 mIds := nil;
3213 mVals := nil;
3214 mMaxName := '';
3215 mMaxVal := 0;
3216 end;
3219 function TDynEBS.findByName (const aname: AnsiString): Integer;
3220 begin
3221 result := 0;
3222 while (result < Length(mIds)) do
3223 begin
3224 if StrEqu(aname, mIds[result]) then exit;
3225 Inc(result);
3226 end;
3227 result := -1;
3228 end;
3231 function TDynEBS.hasByName (const aname: AnsiString): Boolean; inline;
3232 begin
3233 result := (findByName(aname) >= 0);
3234 end;
3237 function TDynEBS.getFieldByName (const aname: AnsiString): Integer; inline;
3238 var
3239 f: Integer;
3240 begin
3241 f := findByName(aname);
3242 if (f >= 0) then result := mVals[f] else result := 0;
3243 end;
3246 function TDynEBS.definition (): AnsiString;
3247 var
3248 f, cv: Integer;
3249 begin
3250 if mIsEnum then result :='enum ' else result := 'bitset ';
3251 result += mTypeName;
3252 result += ' {'#10;
3253 // fields
3254 if mIsEnum then cv := 0 else cv := 1;
3255 for f := 0 to High(mIds) do
3256 begin
3257 if (mIds[f] = mMaxName) then continue;
3258 result += ' '+mIds[f];
3259 if (mVals[f] <> cv) then
3260 begin
3261 result += Format(' = %d', [mVals[f]]);
3262 if mIsEnum then cv := mVals[f];
3263 result += ','#10;
3264 end
3265 else
3266 begin
3267 result += Format(', // %d'#10, [mVals[f]]);
3268 end;
3269 if mIsEnum then Inc(cv) else if (mVals[f] = cv) then cv := cv shl 1;
3270 end;
3271 // max field
3272 if (Length(mMaxName) > 0) then result += ' '+mMaxName+' = MAX,'#10;
3273 result += '}';
3274 end;
3277 function TDynEBS.pasdef (): AnsiString;
3278 var
3279 f: Integer;
3280 begin
3281 result := '// '+mTypeName+#10'const'#10;
3282 // fields
3283 for f := 0 to High(mIds) do
3284 begin
3285 result += formatstrf(' %s = %d;'#10, [mIds[f], mVals[f]]);
3286 end;
3287 end;
3290 function TDynEBS.nameByValue (v: Integer): AnsiString;
3291 var
3292 f: Integer;
3293 begin
3294 for f := 0 to High(mVals) do
3295 begin
3296 if (mVals[f] = v) then begin result := mIds[f]; exit; end;
3297 end;
3298 result := '';
3299 end;
3302 procedure TDynEBS.parseDef (pr: TTextParser);
3303 var
3304 idname: AnsiString;
3305 cv, v: Integer;
3306 f: Integer;
3307 skipAdd: Boolean;
3308 hasV: Boolean;
3309 begin
3310 if pr.eatId('enum') then mIsEnum := true
3311 else if pr.eatId('bitset') then mIsEnum := false
3312 else pr.expectId('enum');
3313 mTypeName := pr.expectId();
3314 mMaxVal := Integer($80000000);
3315 if mIsEnum then cv := 0 else cv := 1;
3316 while (not pr.isDelim('{')) do
3317 begin
3318 if pr.eatId('tip') then
3319 begin
3320 if (Length(mTip) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate tip definition for enum/bitset ''%s''', [mTypeName]);
3321 mTip := pr.expectStr(false);
3322 continue;
3323 end;
3324 if pr.eatId('help') then
3325 begin
3326 if (Length(mHelp) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate help definition for enum/bitset ''%s''', [mTypeName]);
3327 mHelp := pr.expectStr(false);
3328 continue;
3329 end;
3330 break;
3331 end;
3332 pr.expectDelim('{');
3333 while (not pr.isDelim('}')) do
3334 begin
3335 idname := pr.expectId();
3336 for f := 0 to High(mIds) do
3337 begin
3338 if StrEqu(mIds[f], idname) then raise TDynParseException.CreateFmt(pr, 'duplicate field ''%s'' in enum/bitset ''%s''', [idname, mTypeName]);
3339 end;
3340 if StrEqu(mMaxName, idname) then raise TDynParseException.CreateFmt(pr, 'duplicate field ''%s'' in enum/bitset ''%s''', [idname, mTypeName]);
3341 skipAdd := false;
3342 hasV := false;
3343 v := cv;
3344 // has value?
3345 if pr.eatDelim('=') then
3346 begin
3347 if pr.eatId('MAX') then
3348 begin
3349 if (Length(mMaxName) > 0) then raise TDynParseException.CreateFmt(pr, 'duplicate max field ''%s'' in enum/bitset ''%s''', [idname, mTypeName]);
3350 mMaxName := idname;
3351 skipAdd := true;
3352 end
3353 else
3354 begin
3355 v := pr.expectInt();
3356 if mIsEnum then cv := v;
3357 hasV := true;
3358 end;
3359 end;
3360 // append it?
3361 if not skipAdd then
3362 begin
3363 // fix maxvalue
3364 if mIsEnum or (not hasV) then
3365 begin
3366 if (mMaxVal < v) then mMaxVal := v;
3367 end;
3368 SetLength(mIds, Length(mIds)+1);
3369 mIds[High(mIds)] := idname;
3370 SetLength(mVals, Length(mIds));
3371 mVals[High(mVals)] := v;
3372 // next cv
3373 if mIsEnum or (not hasV) then
3374 begin
3375 if mIsEnum then Inc(cv) else cv := cv shl 1;
3376 end;
3377 end;
3378 if (pr.isDelim('}')) then break;
3379 pr.expectDelim(',');
3380 while (pr.eatDelim(',')) do begin end;
3381 end;
3382 pr.expectDelim('}');
3383 // add max field
3384 if (Length(mMaxName) > 0) then
3385 begin
3386 SetLength(mIds, Length(mIds)+1);
3387 mIds[High(mIds)] := mMaxName;
3388 SetLength(mVals, Length(mIds));
3389 mVals[High(mVals)] := mMaxVal;
3390 end;
3391 end;
3394 // ////////////////////////////////////////////////////////////////////////// //
3395 constructor TDynMapDef.Create (pr: TTextParser);
3396 begin
3397 recTypes := TDynRecList.Create();
3398 trigTypes := TDynRecList.Create();
3399 ebsTypes := TDynEBSList.Create();
3400 parseDef(pr);
3401 end;
3404 destructor TDynMapDef.Destroy ();
3405 var
3406 rec: TDynRecord;
3407 ebs: TDynEBS;
3408 begin
3409 //!!!FIXME!!! check who owns trigs and recs!
3410 for rec in recTypes do rec.Free();
3411 for rec in trigTypes do rec.Free();
3412 for ebs in ebsTypes do ebs.Free();
3413 recTypes.Free();
3414 trigTypes.Free();
3415 ebsTypes.Free();
3416 recTypes := nil;
3417 trigTypes := nil;
3418 ebsTypes := nil;
3419 inherited;
3420 end;
3423 function TDynMapDef.getHeaderRecType (): TDynRecord; inline;
3424 begin
3425 if (recTypes.count = 0) then raise TDynRecException.Create('no header in empty mapdef');
3426 result := recTypes[0];
3427 end;
3430 function TDynMapDef.findRecType (const aname: AnsiString): TDynRecord;
3431 var
3432 rec: TDynRecord;
3433 begin
3434 for rec in recTypes do
3435 begin
3436 if StrEqu(rec.typeName, aname) then begin result := rec; exit; end;
3437 end;
3438 result := nil;
3439 end;
3442 function TDynMapDef.findTrigFor (const aname: AnsiString): TDynRecord;
3443 var
3444 rec: TDynRecord;
3445 begin
3446 for rec in trigTypes do
3447 begin
3448 if (rec.isForTrig[aname]) then begin result := rec; exit; end;
3449 end;
3450 result := nil;
3451 end;
3454 function TDynMapDef.findEBSType (const aname: AnsiString): TDynEBS;
3455 var
3456 ebs: TDynEBS;
3457 begin
3458 for ebs in ebsTypes do
3459 begin
3460 if StrEqu(ebs.typeName, aname) then begin result := ebs; exit; end;
3461 end;
3462 result := nil;
3463 end;
3466 procedure TDynMapDef.parseDef (pr: TTextParser);
3467 var
3468 rec, hdr: TDynRecord;
3469 eb: TDynEBS;
3470 f: Integer;
3472 // setup header links and type links
3473 procedure linkRecord (rec: TDynRecord);
3474 var
3475 fld: TDynField;
3476 begin
3477 rec.mHeaderRec := recTypes[0];
3478 for fld in rec.mFields do
3479 begin
3480 if (fld.mType = fld.TType.TTrigData) then continue;
3481 case fld.mEBS of
3482 TDynField.TEBS.TNone: begin end;
3483 TDynField.TEBS.TRec:
3484 begin
3485 fld.mEBSType := findRecType(fld.mEBSTypeName);
3486 if (fld.mEBSType = nil) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' has no correcponding record definition', [fld.mName, fld.mEBSTypeName]);
3487 end;
3488 TDynField.TEBS.TEnum,
3489 TDynField.TEBS.TBitSet:
3490 begin
3491 fld.mEBSType := findEBSType(fld.mEBSTypeName);
3492 if (fld.mEBSType = nil) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' has no correcponding enum/bitset', [fld.mName, fld.mEBSTypeName]);
3493 if ((fld.mEBS = TDynField.TEBS.TEnum) <> (fld.mEBSType as TDynEBS).mIsEnum) then raise TDynParseException.CreateFmt(pr, 'field ''%s'' of type ''%s'' enum/bitset type conflict', [fld.mName, fld.mEBSTypeName]);
3494 end;
3495 end;
3496 end;
3497 end;
3499 // setup default values
3500 procedure fixRecordDefaults (rec: TDynRecord);
3501 var
3502 fld: TDynField;
3503 begin
3504 for fld in rec.mFields do if fld.mHasDefault then fld.parseDefaultValue();
3505 end;
3507 begin
3508 hdr := nil;
3509 while true do
3510 begin
3511 if not pr.skipBlanks() then break;
3513 if (pr.tokType = pr.TTId) then
3514 begin
3515 // enum or bitset
3516 if (pr.tokStr = 'enum') or (pr.tokStr = 'bitset') then
3517 begin
3518 eb := TDynEBS.Create(pr);
3519 if (findEBSType(eb.typeName) <> nil) then
3520 begin
3521 eb.Free();
3522 raise TDynParseException.CreateFmt(pr, 'duplicate enum/bitset ''%s''', [eb.typeName]);
3523 end;
3524 eb.mOwner := self;
3525 ebsTypes.append(eb);
3526 //writeln(eb.definition); writeln;
3527 continue;
3528 end;
3530 // triggerdata
3531 if (pr.tokStr = 'TriggerData') then
3532 begin
3533 rec := TDynRecord.Create(pr);
3534 for f := 0 to High(rec.mTrigTypes) do
3535 begin
3536 if (findTrigFor(rec.mTrigTypes[f]) <> nil) then
3537 begin
3538 rec.Free();
3539 raise TDynParseException.CreateFmt(pr, 'duplicate trigdata ''%s''', [rec.mTrigTypes[f]]);
3540 end;
3541 end;
3542 rec.mOwner := self;
3543 trigTypes.append(rec);
3544 //writeln(dr.definition); writeln;
3545 continue;
3546 end;
3547 end;
3549 rec := TDynRecord.Create(pr);
3550 //writeln(dr.definition); writeln;
3551 if (findRecType(rec.typeName) <> nil) then begin rec.Free(); raise TDynParseException.CreateFmt(pr, 'duplicate record ''%s''', [rec.typeName]); end;
3552 if (hdr <> nil) and StrEqu(rec.typeName, hdr.typeName) then begin rec.Free(); raise TDynParseException.CreateFmt(pr, 'duplicate record ''%s''', [rec.typeName]); end;
3553 rec.mOwner := self;
3554 if rec.mHeader then
3555 begin
3556 if (hdr <> nil) then begin rec.Free(); raise TDynParseException.CreateFmt(pr, 'duplicate header record ''%s'' (previous is ''%s'')', [rec.typeName, hdr.typeName]); end;
3557 hdr := rec;
3558 end
3559 else
3560 begin
3561 recTypes.append(rec);
3562 end;
3563 end;
3565 // put header record to top
3566 if (hdr = nil) then raise TDynParseException.Create(pr, 'header definition not found in mapdef');
3567 recTypes.append(nil);
3568 for f := recTypes.count-1 downto 1 do recTypes[f] := recTypes[f-1];
3569 recTypes[0] := hdr;
3571 // setup header links and type links
3572 for rec in recTypes do linkRecord(rec);
3573 for rec in trigTypes do linkRecord(rec);
3575 // setup default values
3576 for rec in recTypes do fixRecordDefaults(rec);
3577 for rec in trigTypes do fixRecordDefaults(rec);
3578 end;
3581 // ////////////////////////////////////////////////////////////////////////// //
3582 function TDynMapDef.parseTextMap (pr: TTextParser): TDynRecord;
3583 var
3584 res: TDynRecord = nil;
3585 begin
3586 result := nil;
3587 try
3588 pr.expectId(headerType.typeName);
3589 res := headerType.clone(nil);
3590 res.mHeaderRec := res;
3591 res.parseValue(pr);
3592 result := res;
3593 res := nil;
3594 finally
3595 res.Free();
3596 end;
3597 end;
3600 function TDynMapDef.parseBinMap (st: TStream): TDynRecord;
3601 var
3602 res: TDynRecord = nil;
3603 begin
3604 result := nil;
3605 try
3606 res := headerType.clone(nil);
3607 res.mHeaderRec := res;
3608 res.parseBinValue(st);
3609 result := res;
3610 res := nil;
3611 finally
3612 res.Free();
3613 end;
3614 end;
3617 // WARNING! stream must be seekable
3618 function TDynMapDef.parseMap (st: TStream; wasBinary: PBoolean=nil): TDynRecord;
3619 var
3620 sign: packed array[0..3] of AnsiChar;
3621 pr: TTextParser;
3622 begin
3623 if (wasBinary <> nil) then wasBinary^ := false;
3624 st.position := 0;
3625 st.ReadBuffer(sign[0], 4);
3626 st.position := 0;
3627 if (sign[0] = 'M') and (sign[1] = 'A') and (sign[2] = 'P') then
3628 begin
3629 if (sign[3] = #1) then
3630 begin
3631 if (wasBinary <> nil) then wasBinary^ := true;
3632 result := parseBinMap(st);
3633 exit;
3634 end;
3635 raise TDynRecException.Create('invalid binary map version');
3636 end
3637 else
3638 begin
3639 pr := TFileTextParser.Create(st, false); // `st` is not owned
3640 try
3641 try
3642 result := parseTextMap(pr);
3643 except on e: Exception do
3644 raise TDynParseException.Create(pr, e.message);
3645 end;
3646 finally
3647 pr.Free();
3648 end;
3649 end;
3650 end;
3653 // returns `true` if the given stream can be a map file
3654 // stream position is 0 on return
3655 // WARNING! stream must be seekable
3656 class function TDynMapDef.canBeMap (st: TStream): Boolean;
3657 var
3658 sign: packed array[0..3] of AnsiChar;
3659 pr: TTextParser;
3660 begin
3661 result := false;
3662 st.position := 0;
3663 st.ReadBuffer(sign[0], 4);
3664 if (sign[0] = 'M') and (sign[1] = 'A') and (sign[2] = 'P') then
3665 begin
3666 result := (sign[3] = #1);
3667 end
3668 else
3669 begin
3670 st.position := 0;
3671 pr := TFileTextParser.Create(st, false); // `st` is not owned
3672 result := (pr.tokType = pr.TTId) and (pr.tokStr = 'map');
3673 pr.Free();
3674 end;
3675 st.position := 0;
3676 end;
3679 function TDynMapDef.pasdefconst (): AnsiString;
3680 var
3681 ebs: TDynEBS;
3682 begin
3683 result := '';
3684 result += '// ////////////////////////////////////////////////////////////////////////// //'#10;
3685 result += '// enums and bitsets'#10;
3686 for ebs in ebsTypes do result += #10+ebs.pasdef();
3687 end;
3690 function TDynMapDef.getRecTypeCount (): Integer; inline; begin result := recTypes.count; end;
3691 function TDynMapDef.getRecTypeAt (idx: Integer): TDynRecord; inline; begin if (idx >= 0) and (idx < recTypes.count) then result := recTypes[idx] else result := nil; end;
3693 function TDynMapDef.getEBSTypeCount (): Integer; inline; begin result := ebsTypes.count; end;
3694 function TDynMapDef.getEBSTypeAt (idx: Integer): TDynEBS; inline; begin if (idx >= 0) and (idx < ebsTypes.count) then result := ebsTypes[idx] else result := nil; end;
3696 function TDynMapDef.getTrigTypeCount (): Integer; inline; begin result := trigTypes.count; end;
3697 function TDynMapDef.getTrigTypeAt (idx: Integer): TDynRecord; inline; begin if (idx >= 0) and (idx < trigTypes.count) then result := trigTypes[idx] else result := nil; end;
3700 end.