vkdoom_m/src/scripting/zscript/zcc_parser.cpp
Christoph Oelckers 72e77a6c65 - implemented handling for virtual function.
Syntax-wise I chose to make it as strict as possible to reduce the chance of errors: Virtual base functions must be declared with the 'virtual' keyword, and overrides in child classes with the 'override' keyword. This way any mismatch in parameters that otherwise would cause silent failure will outright produce a compile error.
2016-11-11 20:05:07 +01:00

465 lines
13 KiB
C++

/*
** zcc_expr.cpp
**
**---------------------------------------------------------------------------
** Copyright -2016 Randy Heit
** All rights reserved.
**
** Redistribution and use in source and binary forms, with or without
** modification, are permitted provided that the following conditions
** are met:
**
** 1. Redistributions of source code must retain the above copyright
** notice, this list of conditions and the following disclaimer.
** 2. Redistributions in binary form must reproduce the above copyright
** notice, this list of conditions and the following disclaimer in the
** documentation and/or other materials provided with the distribution.
** 3. The name of the author may not be used to endorse or promote products
** derived from this software without specific prior written permission.
**
** THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
** IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
** OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
** IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
** INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
** NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
** DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
** THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
** (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
** THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
**---------------------------------------------------------------------------
**
*/
#include "dobject.h"
#include "sc_man.h"
#include "c_console.h"
#include "c_dispatch.h"
#include "w_wad.h"
#include "cmdlib.h"
#include "m_alloc.h"
#include "i_system.h"
#include "m_argv.h"
#include "v_text.h"
#include "zcc_parser.h"
#include "zcc_compile.h"
static FString ZCCTokenName(int terminal);
#include "zcc-parse.h"
#include "zcc-parse.c"
struct TokenMapEntry
{
SWORD TokenType;
WORD TokenName;
TokenMapEntry(SWORD a, WORD b)
: TokenType(a), TokenName(b)
{ }
};
static TMap<SWORD, TokenMapEntry> TokenMap;
static SWORD BackTokenMap[YYERRORSYMBOL]; // YYERRORSYMBOL immediately follows the terminals described by the grammar
#define TOKENDEF2(sc, zcc, name) { TokenMapEntry tme(zcc, name); TokenMap.Insert(sc, tme); } BackTokenMap[zcc] = sc
#define TOKENDEF(sc, zcc) TOKENDEF2(sc, zcc, NAME_None)
static void InitTokenMap()
{
TOKENDEF ('=', ZCC_EQ);
TOKENDEF (TK_MulEq, ZCC_MULEQ);
TOKENDEF (TK_DivEq, ZCC_DIVEQ);
TOKENDEF (TK_ModEq, ZCC_MODEQ);
TOKENDEF (TK_AddEq, ZCC_ADDEQ);
TOKENDEF (TK_SubEq, ZCC_SUBEQ);
TOKENDEF (TK_LShiftEq, ZCC_LSHEQ);
TOKENDEF (TK_RShiftEq, ZCC_RSHEQ);
TOKENDEF (TK_URShiftEq, ZCC_URSHEQ);
TOKENDEF (TK_AndEq, ZCC_ANDEQ);
TOKENDEF (TK_OrEq, ZCC_OREQ);
TOKENDEF (TK_XorEq, ZCC_XOREQ);
TOKENDEF ('?', ZCC_QUESTION);
TOKENDEF (':', ZCC_COLON);
TOKENDEF (TK_OrOr, ZCC_OROR);
TOKENDEF (TK_AndAnd, ZCC_ANDAND);
TOKENDEF (TK_Eq, ZCC_EQEQ);
TOKENDEF (TK_Neq, ZCC_NEQ);
TOKENDEF (TK_ApproxEq, ZCC_APPROXEQ);
TOKENDEF ('<', ZCC_LT);
TOKENDEF ('>', ZCC_GT);
TOKENDEF (TK_Leq, ZCC_LTEQ);
TOKENDEF (TK_Geq, ZCC_GTEQ);
TOKENDEF (TK_LtGtEq, ZCC_LTGTEQ);
TOKENDEF (TK_Is, ZCC_IS);
TOKENDEF (TK_DotDot, ZCC_DOTDOT);
TOKENDEF (TK_Ellipsis, ZCC_ELLIPSIS);
TOKENDEF ('|', ZCC_OR);
TOKENDEF ('^', ZCC_XOR);
TOKENDEF ('&', ZCC_AND);
TOKENDEF (TK_LShift, ZCC_LSH);
TOKENDEF (TK_RShift, ZCC_RSH);
TOKENDEF (TK_URShift, ZCC_URSH);
TOKENDEF ('-', ZCC_SUB);
TOKENDEF ('+', ZCC_ADD);
TOKENDEF ('*', ZCC_MUL);
TOKENDEF ('/', ZCC_DIV);
TOKENDEF ('%', ZCC_MOD);
TOKENDEF (TK_Cross, ZCC_CROSSPROD);
TOKENDEF (TK_Dot, ZCC_DOTPROD);
TOKENDEF (TK_MulMul, ZCC_POW);
TOKENDEF (TK_Incr, ZCC_ADDADD);
TOKENDEF (TK_Decr, ZCC_SUBSUB);
TOKENDEF ('.', ZCC_DOT);
TOKENDEF ('(', ZCC_LPAREN);
TOKENDEF (')', ZCC_RPAREN);
TOKENDEF (TK_ColonColon, ZCC_SCOPE);
TOKENDEF (';', ZCC_SEMICOLON);
TOKENDEF (',', ZCC_COMMA);
TOKENDEF (TK_Class, ZCC_CLASS);
TOKENDEF (TK_Abstract, ZCC_ABSTRACT);
TOKENDEF (TK_Native, ZCC_NATIVE);
TOKENDEF (TK_Action, ZCC_ACTION);
TOKENDEF (TK_Replaces, ZCC_REPLACES);
TOKENDEF (TK_Static, ZCC_STATIC);
TOKENDEF (TK_Private, ZCC_PRIVATE);
TOKENDEF (TK_Protected, ZCC_PROTECTED);
TOKENDEF (TK_Latent, ZCC_LATENT);
TOKENDEF (TK_Virtual, ZCC_VIRTUAL);
TOKENDEF (TK_Override, ZCC_OVERRIDE);
TOKENDEF (TK_Final, ZCC_FINAL);
TOKENDEF (TK_Meta, ZCC_META);
TOKENDEF (TK_Deprecated, ZCC_DEPRECATED);
TOKENDEF (TK_ReadOnly, ZCC_READONLY);
TOKENDEF ('{', ZCC_LBRACE);
TOKENDEF ('}', ZCC_RBRACE);
TOKENDEF (TK_Struct, ZCC_STRUCT);
TOKENDEF (TK_Enum, ZCC_ENUM);
TOKENDEF2(TK_SByte, ZCC_SBYTE, NAME_sByte);
TOKENDEF2(TK_Byte, ZCC_BYTE, NAME_Byte);
TOKENDEF2(TK_Short, ZCC_SHORT, NAME_Short);
TOKENDEF2(TK_UShort, ZCC_USHORT, NAME_uShort);
TOKENDEF2(TK_Int, ZCC_INT, NAME_Int);
TOKENDEF2(TK_UInt, ZCC_UINT, NAME_uInt);
TOKENDEF2(TK_Bool, ZCC_BOOL, NAME_Bool);
TOKENDEF2(TK_Float, ZCC_FLOAT, NAME_Float);
TOKENDEF2(TK_Double, ZCC_DOUBLE, NAME_Double);
TOKENDEF2(TK_String, ZCC_STRING, NAME_String);
TOKENDEF2(TK_Vector2, ZCC_VECTOR2, NAME_Vector2);
TOKENDEF2(TK_Vector3, ZCC_VECTOR3, NAME_Vector3);
TOKENDEF2(TK_Name, ZCC_NAME, NAME_Name);
TOKENDEF2(TK_Map, ZCC_MAP, NAME_Map);
TOKENDEF2(TK_Array, ZCC_ARRAY, NAME_Array);
TOKENDEF (TK_Void, ZCC_VOID);
TOKENDEF (TK_True, ZCC_TRUE);
TOKENDEF (TK_False, ZCC_FALSE);
TOKENDEF ('[', ZCC_LBRACKET);
TOKENDEF (']', ZCC_RBRACKET);
TOKENDEF (TK_In, ZCC_IN);
TOKENDEF (TK_Out, ZCC_OUT);
TOKENDEF (TK_Optional, ZCC_OPTIONAL);
TOKENDEF (TK_Super, ZCC_SUPER);
TOKENDEF (TK_Null, ZCC_NULLPTR);
TOKENDEF ('~', ZCC_TILDE);
TOKENDEF ('!', ZCC_BANG);
TOKENDEF (TK_SizeOf, ZCC_SIZEOF);
TOKENDEF (TK_AlignOf, ZCC_ALIGNOF);
TOKENDEF (TK_Continue, ZCC_CONTINUE);
TOKENDEF (TK_Break, ZCC_BREAK);
TOKENDEF (TK_Return, ZCC_RETURN);
TOKENDEF (TK_Do, ZCC_DO);
TOKENDEF (TK_For, ZCC_FOR);
TOKENDEF (TK_While, ZCC_WHILE);
TOKENDEF (TK_Until, ZCC_UNTIL);
TOKENDEF (TK_If, ZCC_IF);
TOKENDEF (TK_Else, ZCC_ELSE);
TOKENDEF (TK_Switch, ZCC_SWITCH);
TOKENDEF (TK_Case, ZCC_CASE);
TOKENDEF2(TK_Default, ZCC_DEFAULT, NAME_Default);
TOKENDEF (TK_Const, ZCC_CONST);
TOKENDEF (TK_Stop, ZCC_STOP);
TOKENDEF (TK_Wait, ZCC_WAIT);
TOKENDEF (TK_Fail, ZCC_FAIL);
TOKENDEF (TK_Loop, ZCC_LOOP);
TOKENDEF (TK_Goto, ZCC_GOTO);
TOKENDEF (TK_States, ZCC_STATES);
TOKENDEF2(TK_State, ZCC_STATE, NAME_State);
TOKENDEF2(TK_Color, ZCC_COLOR, NAME_Color);
TOKENDEF2(TK_Sound, ZCC_SOUND, NAME_Sound);
TOKENDEF (TK_Identifier, ZCC_IDENTIFIER);
TOKENDEF (TK_StringConst, ZCC_STRCONST);
TOKENDEF (TK_NameConst, ZCC_NAMECONST);
TOKENDEF (TK_IntConst, ZCC_INTCONST);
TOKENDEF (TK_UIntConst, ZCC_UINTCONST);
TOKENDEF (TK_FloatConst, ZCC_FLOATCONST);
TOKENDEF (TK_NonWhitespace, ZCC_NWS);
TOKENDEF (TK_Bright, ZCC_BRIGHT);
TOKENDEF (TK_Slow, ZCC_SLOW);
TOKENDEF (TK_Fast, ZCC_FAST);
TOKENDEF (TK_NoDelay, ZCC_NODELAY);
TOKENDEF (TK_Offset, ZCC_OFFSET);
TOKENDEF (TK_CanRaise, ZCC_CANRAISE);
TOKENDEF (TK_Light, ZCC_LIGHT);
TOKENDEF (TK_Extend, ZCC_EXTEND);
}
#undef TOKENDEF
#undef TOKENDEF2
static void ParseSingleFile(const char *filename, int lump, void *parser, ZCCParseState &state)
{
int tokentype;
//bool failed;
ZCCToken value;
FScanner sc;
if (filename != nullptr)
{
lump = Wads.CheckNumForFullName(filename, true);
if (lump >= 0)
{
sc.OpenLumpNum(lump);
}
else
{
Printf("Could not find script lump '%s'\n", filename);
return;
}
}
else sc.OpenLumpNum(lump);
state.sc = &sc;
while (sc.GetToken())
{
value.SourceLoc = sc.GetMessageLine();
switch (sc.TokenType)
{
case TK_StringConst:
value.String = state.Strings.Alloc(sc.String, sc.StringLen);
tokentype = ZCC_STRCONST;
break;
case TK_NameConst:
value.Int = sc.Name;
tokentype = ZCC_NAMECONST;
break;
case TK_IntConst:
value.Int = sc.Number;
tokentype = ZCC_INTCONST;
break;
case TK_UIntConst:
value.Int = sc.Number;
tokentype = ZCC_UINTCONST;
break;
case TK_FloatConst:
value.Float = sc.Float;
tokentype = ZCC_FLOATCONST;
break;
case TK_Identifier:
value.Int = FName(sc.String);
tokentype = ZCC_IDENTIFIER;
break;
case TK_NonWhitespace:
value.Int = FName(sc.String);
tokentype = ZCC_NWS;
break;
default:
TokenMapEntry *zcctoken = TokenMap.CheckKey(sc.TokenType);
if (zcctoken != nullptr)
{
tokentype = zcctoken->TokenType;
value.Int = zcctoken->TokenName;
}
else
{
sc.ScriptMessage("Unexpected token %s.\n", sc.TokenName(sc.TokenType).GetChars());
goto parse_end;
}
break;
}
ZCCParse(parser, tokentype, value, &state);
}
parse_end:
value.Int = -1;
ZCCParse(parser, ZCC_EOF, value, &state);
state.sc = nullptr;
}
static void DoParse(int lumpnum)
{
FScanner sc;
void *parser;
ZCCToken value;
parser = ZCCParseAlloc(malloc);
ZCCParseState state;
//#define TRACE
#ifdef TRACE // this costs a lot of time and should only be activated when it's really needed.
FILE *f = fopen("trace.txt", "w");
char prompt = '\0';
ZCCParseTrace(f, &prompt);
#endif
sc.OpenLumpNum(lumpnum);
auto saved = sc.SavePos();
bool parsed = false;
if (sc.GetToken())
{
if (sc.TokenType == TK_Class || sc.TokenType == TK_Enum || sc.TokenType == TK_Struct || sc.TokenType == TK_Const || sc.TokenType == TK_Native)
{
if (sc.CheckToken(TK_Identifier))
{
// This looks like an actual definition file and not a file list.
ParseSingleFile(nullptr, lumpnum, parser, state);
parsed = true;
}
}
}
if (!parsed)
{
sc.RestorePos(saved);
// parse all files from this list in one go.
while (sc.GetString())
{
FixPathSeperator(sc.String);
if (Wads.GetLumpFile(sc.LumpNum) == 0)
{
int includefile = Wads.GetLumpFile(Wads.CheckNumForFullName(sc.String, true));
if (includefile != 0)
{
I_FatalError("File %s is overriding core lump %s.",
Wads.GetWadFullName(includefile), sc.String);
}
}
ParseSingleFile(sc.String, 0, parser, state);
}
}
value.Int = -1;
value.SourceLoc = sc.GetMessageLine();
ZCCParse(parser, 0, value, &state);
ZCCParseFree(parser, free);
// If the parser fails, there is no point starting the compiler, because it'd only flood the output with endless errors.
if (FScriptPosition::ErrorCounter > 0)
{
I_Error("%d errors while parsing %s", FScriptPosition::ErrorCounter, Wads.GetLumpFullPath(lumpnum).GetChars());
}
#ifdef TRACE
if (f != NULL)
{
fclose(f);
}
#endif
// Make a dump of the AST before running the compiler for diagnostic purposes.
if (Args->CheckParm("-dumpast"))
{
FString ast = ZCC_PrintAST(state.TopNode);
FString filename = Wads.GetLumpFullPath(lumpnum);
filename.ReplaceChars(":\\/?|", '.');
filename << ".ast";
FILE *ff = fopen(filename, "w");
if (ff != NULL)
{
fputs(ast.GetChars(), ff);
fclose(ff);
}
}
PSymbolTable symtable;
symtable.SetName("Global_Node");
ZCCCompiler cc(state, NULL, symtable, GlobalSymbols, lumpnum);
cc.Compile();
if (FScriptPosition::ErrorCounter > 0)
{
// Abort if the compiler produced any errors. Also do not compile further lumps, because they very likely miss some stuff.
I_Error("%d errors, %d warnings while compiling %s", FScriptPosition::ErrorCounter, FScriptPosition::WarnCounter, Wads.GetLumpFullPath(lumpnum).GetChars());
}
else if (FScriptPosition::WarnCounter > 0)
{
// If we got warnings, but no errors, print the information but continue.
Printf(TEXTCOLOR_ORANGE "%d warnings while compiling %s", FScriptPosition::WarnCounter, Wads.GetLumpFullPath(lumpnum).GetChars());
}
}
void ParseScripts()
{
if (TokenMap.CountUsed() == 0)
{
InitTokenMap();
}
ZCC_InitOperators();
ZCC_InitConversions();
int lump, lastlump = 0;
FScriptPosition::ResetErrorCounter();
while ((lump = Wads.FindLump("ZSCRIPT", &lastlump)) != -1)
{
DoParse(lump);
}
}
/*
CCMD(parse)
{
if (argv.argc() == 2)
{
DoParse(argv[1]);
}
}
*/
static FString ZCCTokenName(int terminal)
{
if (terminal == ZCC_EOF)
{
return "end of file";
}
int sc_token;
if (terminal > 0 && terminal < (int)countof(BackTokenMap))
{
sc_token = BackTokenMap[terminal];
if (sc_token == 0)
{ // This token was not initialized. Whoops!
sc_token = -terminal;
}
}
else
{ // This should never happen.
sc_token = -terminal;
}
return FScanner::TokenName(sc_token);
}
ZCC_TreeNode *ZCC_AST::InitNode(size_t size, EZCCTreeNodeType type, ZCC_TreeNode *basis)
{
ZCC_TreeNode *node = (ZCC_TreeNode *)SyntaxArena.Alloc(size);
node->SiblingNext = node;
node->SiblingPrev = node;
node->NodeType = type;
if (basis != NULL)
{
node->SourceName = basis->SourceName;
node->SourceLump = basis->SourceLump;
node->SourceLoc = basis->SourceLoc;
}
return node;
}
ZCC_TreeNode *ZCCParseState::InitNode(size_t size, EZCCTreeNodeType type)
{
ZCC_TreeNode *node = ZCC_AST::InitNode(size, type, NULL);
node->SourceName = Strings.Alloc(sc->ScriptName);
node->SourceLump = sc->LumpNum;
return node;
}