/** $Id: VDScript.cpp $ */ /** @file * VBox HDD container test utility - scripting engine. */ /* * Copyright (C) 2013-2019 Oracle Corporation * * This file is part of VirtualBox Open Source Edition (OSE), as * available from http://www.virtualbox.org. This file is free software; * you can redistribute it and/or modify it under the terms of the GNU * General Public License (GPL) as published by the Free Software * Foundation, in version 2 as it comes in the "COPYING" file of the * VirtualBox OSE distribution. VirtualBox OSE is distributed in the * hope that it will be useful, but WITHOUT ANY WARRANTY of any kind. */ /** @page pg_vd_script VDScript - Simple scripting language for VD I/O testing. * * This component implements a very simple scripting language to make testing the VD * library more flexible and testcases faster to implement without the need to recompile * everything after it changed. * The language is a small subset of the C language. It doesn't support unions, structs, * global variables, typedefed types or pointers (yet). It also adds a boolean and a string type. * Strings are immutable and only to print messages from the script. * There are also not the default types like int or unsigned because theire ranges are architecture * dependent. Instead VDScript uses uint8_t, int8_t, ... as primitive types. * * Why inventing a completely new language? * * Well it is not a completely new language to start with, it is a subset of C and the * language can be extended later on to reach the full C language later on. * Second, there is no static typed scripting language I like which could be implemented * and finally because I can ;) * The code implementing the scripting engine is designed to be easily incorporated into other * code. Could be used as a scripting language for the VBox debugger for example or in the scm * tool to automatically rewrite C code using the AST VDSCript generates... * * The syntax of VDSCript is derived from the C syntax. The syntax of C in BNF was taken * from: http://www.csci.csusb.edu/dick/samples/c.syntax.html * and: http://slps.github.com/zoo/c/iso-9899-tc3.html * and: http://www.open-std.org/jtc1/sc22/WG14/www/docs/n1256.pdf */ #define LOGGROUP LOGGROUP_DEFAULT #include #include #include #include #include #include #include #include "VDScriptAst.h" #include "VDScriptInternal.h" /** * VD script token class. */ typedef enum VDTOKENCLASS { /** Invalid. */ VDTOKENCLASS_INVALID = 0, /** Identifier class. */ VDTOKENCLASS_IDENTIFIER, /** Numerical constant. */ VDTOKENCLASS_NUMCONST, /** String constant. */ VDTOKENCLASS_STRINGCONST, /** Operators */ VDTOKENCLASS_OPERATORS, /** Reserved keyword */ VDTOKENCLASS_KEYWORD, /** Punctuator */ VDTOKENCLASS_PUNCTUATOR, /** End of stream */ VDTOKENCLASS_EOS, /** 32bit hack. */ VDTOKENCLASS_32BIT_HACK = 0x7fffffff } VDTOKENCLASS; /** Pointer to a token class. */ typedef VDTOKENCLASS *PVDTOKENCLASS; /** * Keyword types. */ typedef enum VDSCRIPTTOKENKEYWORD { VDSCRIPTTOKENKEYWORD_INVALID = 0, VDSCRIPTTOKENKEYWORD_CONTINUE, VDSCRIPTTOKENKEYWORD_REGISTER, VDSCRIPTTOKENKEYWORD_RESTRICT, VDSCRIPTTOKENKEYWORD_VOLATILE, VDSCRIPTTOKENKEYWORD_TYPEDEF, VDSCRIPTTOKENKEYWORD_DEFAULT, VDSCRIPTTOKENKEYWORD_EXTERN, VDSCRIPTTOKENKEYWORD_STATIC, VDSCRIPTTOKENKEYWORD_RETURN, VDSCRIPTTOKENKEYWORD_SWITCH, VDSCRIPTTOKENKEYWORD_STRUCT, VDSCRIPTTOKENKEYWORD_WHILE, VDSCRIPTTOKENKEYWORD_BREAK, VDSCRIPTTOKENKEYWORD_CONST, VDSCRIPTTOKENKEYWORD_FALSE, VDSCRIPTTOKENKEYWORD_TRUE, VDSCRIPTTOKENKEYWORD_ELSE, VDSCRIPTTOKENKEYWORD_CASE, VDSCRIPTTOKENKEYWORD_AUTO, VDSCRIPTTOKENKEYWORD_FOR, VDSCRIPTTOKENKEYWORD_IF, VDSCRIPTTOKENKEYWORD_DO, VDSCRIPTTOKENKEYWORD_32BIT_HACK = 0x7fffffff } VDSCRIPTTOKENKEYWORD; /** Pointer to a keyword type. */ typedef VDSCRIPTTOKENKEYWORD *PVDSCRIPTTOKENKEYWORD; /** * VD script token. */ typedef struct VDSCRIPTTOKEN { /** Token class. */ VDTOKENCLASS enmClass; /** Token position in the source buffer. */ VDSRCPOS Pos; /** Data based on the token class. */ union { /** Identifier. */ struct { /** Pointer to the start of the identifier. */ const char *pszIde; /** Number of characters for the identifier excluding the null terminator. */ size_t cchIde; } Ide; /** Numerical constant. */ struct { uint64_t u64; } NumConst; /** String constant */ struct { /** Pointer to the start of the string constant. */ const char *pszString; /** Number of characters of the string, including the null terminator. */ size_t cchString; } StringConst; /** Operator */ struct { /** The operator string. */ char aszOp[4]; /** Maximum of 3 for >>= + null terminator. */ } Operator; /** Keyword. */ struct { /** The keyword type. */ VDSCRIPTTOKENKEYWORD enmKeyword; } Keyword; /** Punctuator. */ struct { /** The punctuator in question. */ char chPunctuator; } Punctuator; } Class; } VDSCRIPTTOKEN; /** Pointer to a script token. */ typedef VDSCRIPTTOKEN *PVDSCRIPTTOKEN; /** Pointer to a const script token. */ typedef const VDSCRIPTTOKEN *PCVDSCRIPTTOKEN; /** * Tokenizer state. */ typedef struct VDTOKENIZER { /** Char buffer to read from. */ const char *pszInput; /** Current position ininput buffer. */ VDSRCPOS Pos; /** Token 1. */ VDSCRIPTTOKEN Token1; /** Token 2. */ VDSCRIPTTOKEN Token2; /** Pointer to the current active token. */ PVDSCRIPTTOKEN pTokenCurr; /** The next token in the input stream (used for peeking). */ PVDSCRIPTTOKEN pTokenNext; } VDTOKENIZER; /** * Operators entry. */ typedef struct VDSCRIPTOP { /** Operator string. */ const char *pszOp; /** Size of the operator in characters without zero terminator. */ size_t cchOp; } VDSCRIPTOP; /** Pointer to a script operator. */ typedef VDSCRIPTOP *PVDSCRIPTOP; /** * Known operators array, sort from higest character count to lowest. */ static VDSCRIPTOP g_aScriptOps[] = { {">>=", 3}, {"<<=", 3}, {"+=", 2}, {"-=", 2}, {"/=", 2}, {"%=", 2}, {"&=", 2}, {"|=", 2}, {"^=", 2}, {"&&", 2}, {"||", 2}, {"<<", 2}, {">>", 2}, {"++", 2}, {"--", 2}, {"==", 2}, {"!=", 2}, {">=", 2}, {"<=", 2}, {"->", 2}, {"=", 1}, {"+", 1}, {"-", 1}, {"*", 1}, {"/", 1}, {"%", 1}, {"|", 1}, {"&", 1}, {"^", 1}, {"<", 1}, {">", 1}, {"!", 1}, {"~", 1}, {".", 1} }; /** * Known punctuators. */ static VDSCRIPTOP g_aScriptPunctuators[] = { {"(", 1}, {")", 1}, {"{", 1}, {"}", 1}, {",", 1}, {";", 1}, }; /** * Keyword entry. */ typedef struct VDSCRIPTKEYWORD { /** Keyword string. */ const char *pszKeyword; /** Size of the string in characters without zero terminator. */ size_t cchKeyword; /** Keyword type. */ VDSCRIPTTOKENKEYWORD enmKeyword; } VDSCRIPTKEYWORD; /** */ typedef VDSCRIPTKEYWORD *PVDSCRIPTKEYWORD; /** * Known keywords. */ static VDSCRIPTKEYWORD g_aKeywords[] = { {RT_STR_TUPLE("continue"), VDSCRIPTTOKENKEYWORD_CONTINUE}, {RT_STR_TUPLE("register"), VDSCRIPTTOKENKEYWORD_REGISTER}, {RT_STR_TUPLE("restrict"), VDSCRIPTTOKENKEYWORD_RESTRICT}, {RT_STR_TUPLE("volatile"), VDSCRIPTTOKENKEYWORD_VOLATILE}, {RT_STR_TUPLE("typedef"), VDSCRIPTTOKENKEYWORD_TYPEDEF}, {RT_STR_TUPLE("default"), VDSCRIPTTOKENKEYWORD_DEFAULT}, {RT_STR_TUPLE("extern"), VDSCRIPTTOKENKEYWORD_EXTERN}, {RT_STR_TUPLE("static"), VDSCRIPTTOKENKEYWORD_STATIC}, {RT_STR_TUPLE("return"), VDSCRIPTTOKENKEYWORD_RETURN}, {RT_STR_TUPLE("switch"), VDSCRIPTTOKENKEYWORD_SWITCH}, {RT_STR_TUPLE("struct"), VDSCRIPTTOKENKEYWORD_STRUCT}, {RT_STR_TUPLE("while"), VDSCRIPTTOKENKEYWORD_WHILE}, {RT_STR_TUPLE("break"), VDSCRIPTTOKENKEYWORD_BREAK}, {RT_STR_TUPLE("const"), VDSCRIPTTOKENKEYWORD_CONST}, {RT_STR_TUPLE("false"), VDSCRIPTTOKENKEYWORD_FALSE}, {RT_STR_TUPLE("true"), VDSCRIPTTOKENKEYWORD_TRUE}, {RT_STR_TUPLE("else"), VDSCRIPTTOKENKEYWORD_ELSE}, {RT_STR_TUPLE("case"), VDSCRIPTTOKENKEYWORD_CASE}, {RT_STR_TUPLE("auto"), VDSCRIPTTOKENKEYWORD_AUTO}, {RT_STR_TUPLE("for"), VDSCRIPTTOKENKEYWORD_FOR}, {RT_STR_TUPLE("if"), VDSCRIPTTOKENKEYWORD_IF}, {RT_STR_TUPLE("do"), VDSCRIPTTOKENKEYWORD_DO} }; static int vdScriptParseCompoundStatement(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSTMT *ppAstNodeCompound); static int vdScriptParseStatement(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSTMT *ppAstNodeStmt); static int vdScriptParseExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr); static int vdScriptParseAssignmentExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr); static int vdScriptParseCastExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr); #if 0 /* unused */ static int vdScriptParseConstExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr); #endif /** * Returns whether the tokenizer reached the end of the stream. * * @returns true if the tokenizer reached the end of stream marker * false otherwise. * @param pTokenizer The tokenizer state. */ DECLINLINE(bool) vdScriptTokenizerIsEos(PVDTOKENIZER pTokenizer) { return *pTokenizer->pszInput == '\0'; } /** * Skip one character in the input stream. * * @returns nothing. * @param pTokenizer The tokenizer state. */ DECLINLINE(void) vdScriptTokenizerSkipCh(PVDTOKENIZER pTokenizer) { pTokenizer->pszInput++; pTokenizer->Pos.iChStart++; pTokenizer->Pos.iChEnd++; } /** * Returns the next char in the input buffer without advancing it. * * @returns Next character in the input buffer. * @param pTokenizer The tokenizer state. */ DECLINLINE(char) vdScriptTokenizerPeekCh(PVDTOKENIZER pTokenizer) { return vdScriptTokenizerIsEos(pTokenizer) ? '\0' : *(pTokenizer->pszInput + 1); } /** * Returns the next character in the input buffer advancing the internal * position. * * @returns Next character in the stream. * @param pTokenizer The tokenizer state. */ DECLINLINE(char) vdScriptTokenizerGetCh(PVDTOKENIZER pTokenizer) { char ch; if (vdScriptTokenizerIsEos(pTokenizer)) ch = '\0'; else ch = *pTokenizer->pszInput; return ch; } /** * Sets a new line for the tokenizer. * * @returns nothing. * @param pTokenizer The tokenizer state. */ DECLINLINE(void) vdScriptTokenizerNewLine(PVDTOKENIZER pTokenizer, unsigned cSkip) { pTokenizer->pszInput += cSkip; pTokenizer->Pos.iLine++; pTokenizer->Pos.iChStart = 1; pTokenizer->Pos.iChEnd = 1; } /** * Checks whether the current position in the input stream is a new line * and skips it. * * @returns Flag whether there was a new line at the current position * in the input buffer. * @param pTokenizer The tokenizer state. */ DECLINLINE(bool) vdScriptTokenizerIsSkipNewLine(PVDTOKENIZER pTokenizer) { bool fNewline = true; if ( vdScriptTokenizerGetCh(pTokenizer) == '\r' && vdScriptTokenizerPeekCh(pTokenizer) == '\n') vdScriptTokenizerNewLine(pTokenizer, 2); else if (vdScriptTokenizerGetCh(pTokenizer) == '\n') vdScriptTokenizerNewLine(pTokenizer, 1); else fNewline = false; return fNewline; } /** * Skips a multi line comment. * * @returns nothing. * @param pTokenizer The tokenizer state. */ DECLINLINE(void) vdScriptTokenizerSkipComment(PVDTOKENIZER pTokenizer) { while ( !vdScriptTokenizerIsEos(pTokenizer) && ( vdScriptTokenizerGetCh(pTokenizer) != '*' || vdScriptTokenizerPeekCh(pTokenizer) != '/')) { if (!vdScriptTokenizerIsSkipNewLine(pTokenizer)) vdScriptTokenizerSkipCh(pTokenizer); } if (!vdScriptTokenizerIsEos(pTokenizer)) vdScriptTokenizerSkipCh(pTokenizer); if (!vdScriptTokenizerIsEos(pTokenizer)) vdScriptTokenizerSkipCh(pTokenizer); } /** * Skip all whitespace starting from the current input buffer position. * Skips all present comments too. * * @returns nothing. * @param pTokenizer The tokenizer state. */ DECLINLINE(void) vdScriptTokenizerSkipWhitespace(PVDTOKENIZER pTokenizer) { while (!vdScriptTokenizerIsEos(pTokenizer)) { while ( vdScriptTokenizerGetCh(pTokenizer) == ' ' || vdScriptTokenizerGetCh(pTokenizer) == '\t') vdScriptTokenizerSkipCh(pTokenizer); if ( !vdScriptTokenizerIsEos(pTokenizer) && !vdScriptTokenizerIsSkipNewLine(pTokenizer)) { if ( vdScriptTokenizerGetCh(pTokenizer) == '/' && vdScriptTokenizerPeekCh(pTokenizer) == '*') { vdScriptTokenizerSkipCh(pTokenizer); vdScriptTokenizerSkipCh(pTokenizer); vdScriptTokenizerSkipComment(pTokenizer); } else break; /* Skipped everything, next is some real content. */ } } } /** * Get an identifier token from the tokenizer. * * @returns nothing. * @param pTokenizer The tokenizer state. * @param pToken The uninitialized token. */ static void vdScriptTokenizerGetIdeOrKeyword(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { char ch; unsigned cchIde = 0; bool fIsKeyword = false; const char *pszIde = pTokenizer->pszInput; pToken->Pos = pTokenizer->Pos; Assert(RT_C_IS_ALPHA(*pszIde) || *pszIde == '_' ); do { cchIde++; vdScriptTokenizerSkipCh(pTokenizer); ch = vdScriptTokenizerGetCh(pTokenizer); } while (RT_C_IS_ALNUM(ch) || ch == '_'); /* Check whether we got an identifier or an reserved keyword. */ for (unsigned i = 0; i < RT_ELEMENTS(g_aKeywords); i++) { if (!RTStrNCmp(g_aKeywords[i].pszKeyword, pszIde, g_aKeywords[i].cchKeyword)) { fIsKeyword = true; pToken->enmClass = VDTOKENCLASS_KEYWORD; pToken->Class.Keyword.enmKeyword = g_aKeywords[i].enmKeyword; break; } } if (!fIsKeyword) { pToken->enmClass = VDTOKENCLASS_IDENTIFIER; pToken->Class.Ide.pszIde = pszIde; pToken->Class.Ide.cchIde = cchIde; } pToken->Pos.iChEnd += cchIde; } /** * Get a numerical constant from the tokenizer. * * @returns nothing. * @param pTokenizer The tokenizer state. * @param pToken The uninitialized token. */ static void vdScriptTokenizerGetNumberConst(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { char *pszNext = NULL; Assert(RT_C_IS_DIGIT(vdScriptTokenizerGetCh(pTokenizer))); /* Let RTStrToUInt64Ex() do all the work, looks C compliant :). */ pToken->enmClass = VDTOKENCLASS_NUMCONST; int rc = RTStrToUInt64Ex(pTokenizer->pszInput, &pszNext, 0, &pToken->Class.NumConst.u64); Assert(RT_SUCCESS(rc) || rc == VWRN_TRAILING_CHARS || rc == VWRN_TRAILING_SPACES); NOREF(rc); /** @todo Handle number to big, throw a warning */ unsigned cchNumber = pszNext - pTokenizer->pszInput; for (unsigned i = 0; i < cchNumber; i++) vdScriptTokenizerSkipCh(pTokenizer); /* Check for a supported suffix, supported are K|M|G. */ if (vdScriptTokenizerGetCh(pTokenizer) == 'K') { pToken->Class.NumConst.u64 *= _1K; vdScriptTokenizerSkipCh(pTokenizer); } else if (vdScriptTokenizerGetCh(pTokenizer) == 'M') { pToken->Class.NumConst.u64 *= _1M; vdScriptTokenizerSkipCh(pTokenizer); } else if (vdScriptTokenizerGetCh(pTokenizer) == 'G') { pToken->Class.NumConst.u64 *= _1G; vdScriptTokenizerSkipCh(pTokenizer); } else if (vdScriptTokenizerGetCh(pTokenizer) == 'T') { pToken->Class.NumConst.u64 *= _1T; vdScriptTokenizerSkipCh(pTokenizer); } } /** * Parses a string constant. * * @returns nothing. * @param pTokenizer The tokenizer state. * @param pToken The uninitialized token. * * @remarks: No escape sequences allowed at this time. */ static void vdScriptTokenizerGetStringConst(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { unsigned cchStr = 0; Assert(vdScriptTokenizerGetCh(pTokenizer) == '\"'); vdScriptTokenizerSkipCh(pTokenizer); /* Skip " */ pToken->enmClass = VDTOKENCLASS_STRINGCONST; pToken->Pos = pTokenizer->Pos; pToken->Class.StringConst.pszString = pTokenizer->pszInput; while (vdScriptTokenizerGetCh(pTokenizer) != '\"') { cchStr++; vdScriptTokenizerSkipCh(pTokenizer); } vdScriptTokenizerSkipCh(pTokenizer); /* Skip closing " */ pToken->Class.StringConst.cchString = cchStr; pToken->Pos.iChEnd += cchStr; } /** * Get the end of stream token. * * @returns nothing. * @param pTokenizer The tokenizer state. * @param pToken The uninitialized token. */ static void vdScriptTokenizerGetEos(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { Assert(vdScriptTokenizerGetCh(pTokenizer) == '\0'); pToken->enmClass = VDTOKENCLASS_EOS; pToken->Pos = pTokenizer->Pos; } /** * Get operator or punctuator token. * * @returns nothing. * @param pTokenizer The tokenizer state. * @param pToken The uninitialized token. */ static void vdScriptTokenizerGetOperatorOrPunctuator(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { bool fOpFound = false; pToken->enmClass = VDTOKENCLASS_INVALID; pToken->Pos = pTokenizer->Pos; /* * Use table based approach here, not the fastest solution but enough for our purpose * for now. */ for (unsigned i = 0; i < RT_ELEMENTS(g_aScriptOps); i++) { if (!RTStrNCmp(g_aScriptOps[i].pszOp, pTokenizer->pszInput, g_aScriptOps[i].cchOp)) { memset(pToken->Class.Operator.aszOp, 0, sizeof(pToken->Class.Operator.aszOp)); int rc = RTStrCopy(pToken->Class.Operator.aszOp, sizeof(pToken->Class.Operator.aszOp), g_aScriptOps[i].pszOp); AssertRC(rc); pToken->enmClass = VDTOKENCLASS_OPERATORS; pToken->Pos.iChEnd += (unsigned)g_aScriptOps[i].cchOp; /** @todo Make this prettier. */ for (unsigned j = 0; j < g_aScriptOps[i].cchOp; j++) vdScriptTokenizerSkipCh(pTokenizer); fOpFound = true; break; } } if (!fOpFound) { for (unsigned i = 0; i < RT_ELEMENTS(g_aScriptPunctuators); i++) { if (!RTStrNCmp(g_aScriptPunctuators[i].pszOp, pTokenizer->pszInput, g_aScriptPunctuators[i].cchOp)) { pToken->Pos.iChEnd += (unsigned)g_aScriptPunctuators[i].cchOp; pToken->enmClass = VDTOKENCLASS_PUNCTUATOR; pToken->Class.Punctuator.chPunctuator = *g_aScriptPunctuators[i].pszOp; vdScriptTokenizerSkipCh(pTokenizer); fOpFound = true; break; } } } } /** * Read the next token from the tokenizer stream. * * @returns nothing. * @param pTokenizer The tokenizer to read from. * @param pToken Uninitialized token to fill the token data into. */ static void vdScriptTokenizerReadNextToken(PVDTOKENIZER pTokenizer, PVDSCRIPTTOKEN pToken) { /* Skip all eventually existing whitespace, newlines and comments first. */ vdScriptTokenizerSkipWhitespace(pTokenizer); char ch = vdScriptTokenizerGetCh(pTokenizer); if (RT_C_IS_ALPHA(ch) || ch == '_') vdScriptTokenizerGetIdeOrKeyword(pTokenizer, pToken); else if (RT_C_IS_DIGIT(ch)) vdScriptTokenizerGetNumberConst(pTokenizer, pToken); else if (ch == '\"') vdScriptTokenizerGetStringConst(pTokenizer, pToken); else if (ch == '\0') vdScriptTokenizerGetEos(pTokenizer, pToken); else vdScriptTokenizerGetOperatorOrPunctuator(pTokenizer, pToken); } /** * Create a new tokenizer. * * @returns Pointer to the new tokenizer state on success. * NULL if out of memory. * @param pszInput The input to create the tokenizer for. */ static PVDTOKENIZER vdScriptTokenizerCreate(const char *pszInput) { PVDTOKENIZER pTokenizer = (PVDTOKENIZER)RTMemAllocZ(sizeof(VDTOKENIZER)); if (pTokenizer) { pTokenizer->pszInput = pszInput; pTokenizer->Pos.iLine = 1; pTokenizer->Pos.iChStart = 1; pTokenizer->Pos.iChEnd = 1; pTokenizer->pTokenCurr = &pTokenizer->Token1; pTokenizer->pTokenNext = &pTokenizer->Token2; /* Fill the tokenizer with two first tokens. */ vdScriptTokenizerReadNextToken(pTokenizer, pTokenizer->pTokenCurr); vdScriptTokenizerReadNextToken(pTokenizer, pTokenizer->pTokenNext); } return pTokenizer; } #if 0 /** @todo unused */ /** * Destroys a given tokenizer state. * * @returns nothing. * @param pTokenizer The tokenizer to destroy. */ static void vdScriptTokenizerDestroy(PVDTOKENIZER pTokenizer) { RTMemFree(pTokenizer); } #endif /** * Get the current token in the input stream. * * @returns Pointer to the next token in the stream. * @param pTokenizer The tokenizer to destroy. */ DECLINLINE(PCVDSCRIPTTOKEN) vdScriptTokenizerGetToken(PVDTOKENIZER pTokenizer) { return pTokenizer->pTokenCurr; } /** * Get the class of the current token. * * @returns Class of the current token. * @param pTokenizer The tokenizer state. */ DECLINLINE(VDTOKENCLASS) vdScriptTokenizerGetTokenClass(PVDTOKENIZER pTokenizer) { return pTokenizer->pTokenCurr->enmClass; } /** * Returns the token class of the next token in the stream. * * @returns Token class of the next token. * @param pTokenizer The tokenizer state. */ DECLINLINE(VDTOKENCLASS) vdScriptTokenizerPeekNextClass(PVDTOKENIZER pTokenizer) { return pTokenizer->pTokenNext->enmClass; } /** * Consume the current token advancing to the next in the stream. * * @returns nothing. * @param pTokenizer The tokenizer state. */ static void vdScriptTokenizerConsume(PVDTOKENIZER pTokenizer) { PVDSCRIPTTOKEN pTokenTmp = pTokenizer->pTokenCurr; /* Switch next token to current token and read in the next token. */ pTokenizer->pTokenCurr = pTokenizer->pTokenNext; pTokenizer->pTokenNext = pTokenTmp; vdScriptTokenizerReadNextToken(pTokenizer, pTokenizer->pTokenNext); } /** * Check whether the next token in the input stream is a punctuator and matches the given * character. * * @returns true if the token matched. * false otherwise. * @param pTokenizer The tokenizer state. * @param chCheck The punctuator to check against. */ static bool vdScriptTokenizerIsPunctuatorEqual(PVDTOKENIZER pTokenizer, char chCheck) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pTokenizer); if ( pToken->enmClass == VDTOKENCLASS_PUNCTUATOR && pToken->Class.Punctuator.chPunctuator == chCheck) return true; return false; } /** * Check whether the next token in the input stream is a punctuator and matches the given * character and skips it. * * @returns true if the token matched and was skipped. * false otherwise. * @param pTokenizer The tokenizer state. * @param chCheck The punctuator to check against. */ static bool vdScriptTokenizerSkipIfIsPunctuatorEqual(PVDTOKENIZER pTokenizer, char chCheck) { bool fEqual = vdScriptTokenizerIsPunctuatorEqual(pTokenizer, chCheck); if (fEqual) vdScriptTokenizerConsume(pTokenizer); return fEqual; } /** * Check whether the next token in the input stream is a keyword and matches the given * keyword. * * @returns true if the token matched. * false otherwise. * @param pTokenizer The tokenizer state. * @param enmKey The keyword to check against. */ static bool vdScriptTokenizerIsKeywordEqual(PVDTOKENIZER pTokenizer, VDSCRIPTTOKENKEYWORD enmKeyword) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pTokenizer); if ( pToken->enmClass == VDTOKENCLASS_KEYWORD && pToken->Class.Keyword.enmKeyword == enmKeyword) return true; return false; } /** * Check whether the next token in the input stream is a keyword and matches the given * keyword and skips it. * * @returns true if the token matched and was skipped. * false otherwise. * @param pTokenizer The tokenizer state. * @param enmKey The keyword to check against. */ static bool vdScriptTokenizerSkipIfIsKeywordEqual(PVDTOKENIZER pTokenizer, VDSCRIPTTOKENKEYWORD enmKeyword) { bool fEqual = vdScriptTokenizerIsKeywordEqual(pTokenizer, enmKeyword); if (fEqual) vdScriptTokenizerConsume(pTokenizer); return fEqual; } /** * Check whether the next token in the input stream is a keyword and matches the given * keyword. * * @returns true if the token matched. * false otherwise. * @param pTokenizer The tokenizer state. * @param pszOp The operation to check against. */ static bool vdScriptTokenizerIsOperatorEqual(PVDTOKENIZER pTokenizer, const char *pszOp) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pTokenizer); if ( pToken->enmClass == VDTOKENCLASS_OPERATORS && !RTStrCmp(pToken->Class.Operator.aszOp, pszOp)) return true; return false; } /** * Check whether the next token in the input stream is an operator and matches the given * keyword and skips it. * * @returns true if the token matched and was skipped. * false otherwise. * @param pTokenizer The tokenizer state. * @param pszOp The operation to check against. */ static bool vdScriptTokenizerSkipIfIsOperatorEqual(PVDTOKENIZER pTokenizer, const char *pszOp) { bool fEqual = vdScriptTokenizerIsOperatorEqual(pTokenizer, pszOp); if (fEqual) vdScriptTokenizerConsume(pTokenizer); return fEqual; } /** * Record an error while parsing. * * @returns VBox status code passed. */ static int vdScriptParserError(PVDSCRIPTCTXINT pThis, int rc, RT_SRC_POS_DECL, const char *pszFmt, ...) { RT_NOREF1(pThis); RT_SRC_POS_NOREF(); va_list va; va_start(va, pszFmt); RTPrintfV(pszFmt, va); va_end(va); return rc; } /** * Puts the next identifier AST node on the stack. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeIde Where to store the identifier AST node on success. */ static int vdScriptParseIde(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTIDE *ppAstNodeIde) { int rc = VINF_SUCCESS; PCVDSCRIPTTOKEN pToken; LogFlowFunc(("pThis=%p ppAstNodeIde=%p\n", pThis, ppAstNodeIde)); pToken = vdScriptTokenizerGetToken(pThis->pTokenizer); if (pToken->enmClass != VDTOKENCLASS_IDENTIFIER) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected identifer got...\n"); else { /* Create new AST node and push onto stack. */ PVDSCRIPTASTIDE pAstNodeIde = vdScriptAstNodeIdeAlloc(pToken->Class.Ide.cchIde); if (pAstNodeIde) { rc = RTStrCopyEx(pAstNodeIde->aszIde, pToken->Class.Ide.cchIde + 1, pToken->Class.Ide.pszIde, pToken->Class.Ide.cchIde); AssertRC(rc); pAstNodeIde->cchIde = (unsigned)pToken->Class.Ide.cchIde; *ppAstNodeIde = pAstNodeIde; vdScriptTokenizerConsume(pThis->pTokenizer); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating identifier AST node\n"); } LogFlowFunc(("returns %Rrc\n", rc)); return rc; } /** * Parse a primary expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the primary expression on success. */ static int vdScriptParsePrimaryExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { rc = vdScriptParseExpression(pThis, ppAstNodeExpr); if (RT_SUCCESS(rc) && !vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); } else { PVDSCRIPTASTEXPR pExpr = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExpr) { if (vdScriptTokenizerGetTokenClass(pThis->pTokenizer) == VDTOKENCLASS_IDENTIFIER) { PVDSCRIPTASTIDE pIde = NULL; rc = vdScriptParseIde(pThis, &pIde); if (RT_SUCCESS(rc)) { pExpr->enmType = VDSCRIPTEXPRTYPE_PRIMARY_IDENTIFIER; pExpr->pIde = pIde; } } else if (vdScriptTokenizerGetTokenClass(pThis->pTokenizer) == VDTOKENCLASS_NUMCONST) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pThis->pTokenizer); pExpr->enmType = VDSCRIPTEXPRTYPE_PRIMARY_NUMCONST; pExpr->u64 = pToken->Class.NumConst.u64; vdScriptTokenizerConsume(pThis->pTokenizer); } else if (vdScriptTokenizerGetTokenClass(pThis->pTokenizer) == VDTOKENCLASS_STRINGCONST) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pThis->pTokenizer); pExpr->enmType = VDSCRIPTEXPRTYPE_PRIMARY_STRINGCONST; pExpr->pszStr = RTStrDupN(pToken->Class.StringConst.pszString, pToken->Class.StringConst.cchString); vdScriptTokenizerConsume(pThis->pTokenizer); if (!pExpr->pszStr) rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating string\n"); } else if (vdScriptTokenizerGetTokenClass(pThis->pTokenizer) == VDTOKENCLASS_KEYWORD) { PCVDSCRIPTTOKEN pToken = vdScriptTokenizerGetToken(pThis->pTokenizer); pExpr->enmType = VDSCRIPTEXPRTYPE_PRIMARY_BOOLEAN; if (pToken->Class.Keyword.enmKeyword == VDSCRIPTTOKENKEYWORD_TRUE) pExpr->f = true; else if (pToken->Class.Keyword.enmKeyword == VDSCRIPTTOKENKEYWORD_FALSE) pExpr->f = false; else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Unexpected keyword, expected true or false\n"); vdScriptTokenizerConsume(pThis->pTokenizer); } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\" | identifier | constant | string, got ...\n"); if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pExpr->Core); else *ppAstNodeExpr = pExpr; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse an argument list for a function call. * * @returns VBox status code. * @param pThis The script context. * @param pFnCall The function call AST node. */ static int vdScriptParseFnCallArgumentList(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR pFnCall) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p pFnCall=%p\n", pThis, pFnCall)); rc = vdScriptParseAssignmentExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { RTListAppend(&pFnCall->FnCall.ListArgs, &pExpr->Core.ListNode); while (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ',')) { rc = vdScriptParseAssignmentExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) RTListAppend(&pFnCall->FnCall.ListArgs, &pExpr->Core.ListNode); else break; } if ( RT_SUCCESS(rc) && !vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a postfix expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * postfix-expression: * primary-expression * postfix-expression ( argument-expression ) * postfix-expression ++ * postfix-expression -- * postfix-expression . identifier * postfix-expression -> identifier * @note: Not supported so far are: * ( type-name ) { initializer-list } * ( type-name ) { initializer-list , } */ static int vdScriptParsePostfixExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParsePrimaryExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { while (true) { PVDSCRIPTASTEXPR pExprNew = NULL; if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "++")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_POSTFIX_INCREMENT; pExprNew->pExpr = pExpr; pExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "--")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_POSTFIX_DECREMENT; pExprNew->pExpr = pExpr; pExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "->")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { PVDSCRIPTASTIDE pIde = NULL; rc = vdScriptParseIde(pThis, &pIde); if (RT_SUCCESS(rc)) { pExprNew->enmType = VDSCRIPTEXPRTYPE_POSTFIX_DEREFERENCE; pExprNew->Deref.pIde = pIde; pExprNew->Deref.pExpr = pExpr; pExpr = pExprNew; } else vdScriptAstNodeFree(&pExprNew->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, ".")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { PVDSCRIPTASTIDE pIde = NULL; rc = vdScriptParseIde(pThis, &pIde); if (RT_SUCCESS(rc)) { pExprNew->enmType = VDSCRIPTEXPRTYPE_POSTFIX_DOT; pExprNew->Deref.pIde = pIde; pExprNew->Deref.pExpr = pExpr; pExpr = pExprNew; } else vdScriptAstNodeFree(&pExprNew->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_POSTFIX_FNCALL; RTListInit(&pExprNew->FnCall.ListArgs); if (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) rc = vdScriptParseFnCallArgumentList(pThis, pExprNew); pExprNew->FnCall.pFnIde = pExpr; pExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; if (RT_FAILURE(rc)) break; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse an unary expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * unary-expression: * postfix-expression * ++ unary-expression * -- unary-expression * + cast-expression * - cast-expression * ~ cast-expression * ! cast-expression * & cast-expression * * cast-expression */ static int vdScriptParseUnaryExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; PVDSCRIPTASTEXPR pExprTop = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); /** @todo Think about a more beautiful way of parsing this. */ while (true) { bool fQuit = false; bool fCastExprFollows = false; PVDSCRIPTASTEXPR pExprNew = NULL; VDSCRIPTEXPRTYPE enmType = VDSCRIPTEXPRTYPE_INVALID; if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "++")) enmType = VDSCRIPTEXPRTYPE_UNARY_INCREMENT; else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "--")) enmType = VDSCRIPTEXPRTYPE_UNARY_DECREMENT; else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "+")) { enmType = VDSCRIPTEXPRTYPE_UNARY_POSSIGN; fCastExprFollows = true; } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "-")) { enmType = VDSCRIPTEXPRTYPE_UNARY_NEGSIGN; fCastExprFollows = true; } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "~")) { enmType = VDSCRIPTEXPRTYPE_UNARY_INVERT; fCastExprFollows = true; } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "!")) { enmType = VDSCRIPTEXPRTYPE_UNARY_NEGATE; fCastExprFollows = true; } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "&")) { enmType = VDSCRIPTEXPRTYPE_UNARY_REFERENCE; fCastExprFollows = true; } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "*")) { enmType = VDSCRIPTEXPRTYPE_UNARY_DEREFERENCE; fCastExprFollows = true; } if (enmType != VDSCRIPTEXPRTYPE_INVALID) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = enmType; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); if ( RT_SUCCESS(rc) && fCastExprFollows) { PVDSCRIPTASTEXPR pCastExpr = NULL; rc = vdScriptParseCastExpression(pThis, &pCastExpr); if (RT_SUCCESS(rc)) pExprNew->pExpr = pCastExpr; else vdScriptAstNodeFree(&pExprNew->Core); fQuit = true; } } else { /* Must be a postfix expression. */ rc = vdScriptParsePostfixExpression(pThis, &pExprNew); fQuit = true; } if (RT_SUCCESS(rc)) { if (!pExprTop) { pExprTop = pExprNew; pExpr = pExprNew; } else { pExpr->pExpr = pExprNew; pExpr = pExprNew; } if (fQuit) break; } else break; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExprTop; else if (pExprTop) vdScriptAstNodeFree(&pExprTop->Core); LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } #if 0 /* unused */ /** * Parse a storage class specifier. * * @returns nothing. * @param pThis The script context. * @param penmStorageClass Where to return the parsed storage classe. * Contains VDSCRIPTASTSTORAGECLASS_INVALID if no * valid storage class specifier was found. * * @note Syntax: * typedef * extern * static * auto * register */ static void vdScriptParseStorageClassSpecifier(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSTORAGECLASS penmStorageClass) { *penmStorageClass = VDSCRIPTASTSTORAGECLASS_INVALID; if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_TYPEDEF)) *penmStorageClass = VDSCRIPTASTSTORAGECLASS_TYPEDEF; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_EXTERN)) *penmStorageClass = VDSCRIPTASTSTORAGECLASS_EXTERN; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_STATIC)) *penmStorageClass = VDSCRIPTASTSTORAGECLASS_STATIC; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_AUTO)) *penmStorageClass = VDSCRIPTASTSTORAGECLASS_AUTO; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_REGISTER)) *penmStorageClass = VDSCRIPTASTSTORAGECLASS_REGISTER; } #endif /* unused */ #if 0 /* unused */ /** * Parse a type qualifier. * * @returns nothing. * @param pThis The script context. * @param penmTypeQualifier Where to return the parsed type qualifier. * Contains VDSCRIPTASTTYPEQUALIFIER_INVALID if no * valid type qualifier was found. * * @note Syntax: * const * restrict * volatile */ static void vdScriptParseTypeQualifier(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTTYPEQUALIFIER penmTypeQualifier) { *penmTypeQualifier = VDSCRIPTASTTYPEQUALIFIER_INVALID; if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_CONST)) *penmTypeQualifier = VDSCRIPTASTTYPEQUALIFIER_CONST; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_RESTRICT)) *penmTypeQualifier = VDSCRIPTASTTYPEQUALIFIER_RESTRICT; else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_VOLATILE)) *penmTypeQualifier = VDSCRIPTASTTYPEQUALIFIER_VOLATILE; } #endif /* unused */ #if 0 /** * Parse a struct or union specifier. * * @returns VBox status code. * @param pThis The script context. * @param ppAstTypeSpec Where to store the type specifier AST node on success. * @param enmTypeSpecifier The type specifier to identify whete this is a struct or a union. */ static int vdScriptParseStructOrUnionSpecifier(PVDSCRIPTCTXINT pThis, , enmTypeSpecifier) { int rc = VINF_SUCCESS; return rc; } /** * Parse a type specifier. * * @returns VBox status code. * @param pThis The script context. * @param ppAstTypeSpec Where to store the type specifier AST node on success. * * @note Syntax: * struct-or-union-specifier * enum-specifier * typedef-name (identifier: includes void, bool, uint8_t, int8_t, ... for basic integer types) */ static int vdScriptParseTypeSpecifier(PVDSCRIPTCTXINT pThis, ) { int rc = VINF_SUCCESS; if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_STRUCT)) rc = vdScriptParseStructOrUnionSpecifier(pThis, , VDSCRIPTASTTYPESPECIFIER_STRUCT); else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_UNION)) rc = vdScriptParseStructOrUnionSpecifier(pThis, , VDSCRIPTASTTYPESPECIFIER_UNION); else { PVDSCRIPTASTIDE pIde = NULL; rc = vdScriptParseIde(pThis, &pIde); if (RT_SUCCESS(rc)) { AssertMsgFailed(("TODO\n")); /* Parse identifier. */ } } return rc; } #endif /** * Parse a cast expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * cast-expression: * unary-expression * ( type-name ) cast-expression */ static int vdScriptParseCastExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); #if 0 if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTTYPE pTypeName = NULL; rc = vdScriptParseTypeName(pThis, &pTypeName); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTEXPR pExpr = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExpr) { pExpr->enmType = VDSCRIPTEXPRTYPE_CAST; rc = vdScriptParseCastExpression(pThis, &pExpr->Cast.pExpr); /** @todo Kill recursion. */ if (RT_SUCCESS(rc)) pExpr->Cast.pTypeName = pTypeName; else vdScriptAstNodeFree(&pExpr->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pTypeName->Core); } else if (RT_SUCCESS(rc)) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); } else #endif rc = vdScriptParseUnaryExpression(pThis, ppAstNodeExpr); return rc; } /** * Parse a multiplicative expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * multiplicative-expression: * cast-expression * multiplicative-expression * cast-expression * multiplicative-expression / cast-expression * multiplicative-expression % cast-expression */ static int vdScriptParseMultiplicativeExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseCastExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { while (RT_SUCCESS(rc)) { VDSCRIPTEXPRTYPE enmType = VDSCRIPTEXPRTYPE_INVALID; PVDSCRIPTASTEXPR pExprNew = NULL; if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "*")) enmType = VDSCRIPTEXPRTYPE_MULTIPLICATION; else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "/")) enmType = VDSCRIPTEXPRTYPE_DIVISION; else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "%")) enmType = VDSCRIPTEXPRTYPE_MODULUS; else break; pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = enmType; else { rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); break; } pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseCastExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a additive expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * additive-expression: * multiplicative-expression * additive-expression + multiplicative-expression * additive-expression - multiplicative-expression */ static int vdScriptParseAdditiveExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseMultiplicativeExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "+")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ADDITION; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "-")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_SUBTRACTION; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseMultiplicativeExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a shift expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * shift-expression: * additive-expression * shift-expression << additive-expression * shift-expression >> additive-expression */ static int vdScriptParseShiftExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseAdditiveExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "<<")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_LSL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, ">>")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_LSR; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseAdditiveExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a relational expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * relational-expression: * shift-expression * relational-expression < shift-expression * relational-expression > shift-expression * relational-expression >= shift-expression * relational-expression <= shift-expression */ static int vdScriptParseRelationalExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseShiftExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "<")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_LOWER; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, ">")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_HIGHER; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, ">=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_HIGHEREQUAL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "<=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_LOWEREQUAL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseShiftExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a equality expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * equality-expression: * relational-expression * equality-expression == relational-expression * equality-expression != relational-expression */ static int vdScriptParseEqualityExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseRelationalExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "==")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_EQUAL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "!=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_NOTEQUAL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseRelationalExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a bitwise and expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * and-expression: * equality-expression * and-expression & equality-expression */ static int vdScriptParseBitwiseAndExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseEqualityExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "&")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_EQUAL; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseEqualityExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a bitwise xor expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * xor-expression: * and-expression * xor-expression ^ equality-expression */ static int vdScriptParseBitwiseXorExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseBitwiseAndExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "^")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_BITWISE_XOR; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseBitwiseAndExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a bitwise or expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * or-expression: * xor-expression * or-expression | xor-expression */ static int vdScriptParseBitwiseOrExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseBitwiseXorExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "|")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_BITWISE_OR; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseBitwiseXorExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a logical and expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * logical-and-expression: * or-expression * logical-and-expression | or-expression */ static int vdScriptParseLogicalAndExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseBitwiseOrExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "&&")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_LOGICAL_AND; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseBitwiseOrExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a logical or expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * logical-or-expression: * logical-and-expression * logical-or-expression | logical-and-expression */ static int vdScriptParseLogicalOrExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseLogicalAndExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "||")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) { pExprNew->enmType = VDSCRIPTEXPRTYPE_LOGICAL_OR; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseLogicalAndExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse a conditional expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note: VDScript doesn't support logical-or-expression ? expression : conditional-expression * so a conditional expression is equal to a logical-or-expression. */ static int vdScriptParseCondExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { return vdScriptParseLogicalOrExpression(pThis, ppAstNodeExpr); } #if 0 /* unused */ /** * Parse a constant expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * constant-expression: * conditional-expression */ static int vdScriptParseConstExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { return vdScriptParseCondExpression(pThis, ppAstNodeExpr); } #endif /** * Parse an assignment expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * assignment-expression: * conditional-expression * unary-expression assignment-operator assignment-expression */ static int vdScriptParseAssignmentExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pExpr; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseLogicalOrExpression(pThis, &pExpr); if (RT_SUCCESS(rc)) { PVDSCRIPTASTEXPR pExprNew = NULL; while (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "*=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_MULT; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "/=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_DIV; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "%=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_MOD; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "+=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_ADD; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "-=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_SUB; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "<<=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_LSL; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, ">>=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_LSR; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "&=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_AND; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "^=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_XOR; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (vdScriptTokenizerSkipIfIsOperatorEqual(pThis->pTokenizer, "|=")) { pExprNew = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pExprNew) pExprNew->enmType = VDSCRIPTEXPRTYPE_ASSIGN_OR; else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else break; pExprNew->BinaryOp.pLeftExpr = pExpr; pExpr = pExprNew; rc = vdScriptParseLogicalOrExpression(pThis, &pExprNew); if (RT_SUCCESS(rc)) pExpr->BinaryOp.pRightExpr = pExprNew; } if (RT_SUCCESS(rc)) *ppAstNodeExpr = pExpr; else vdScriptAstNodeFree(&pExpr->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse an expression. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeExpr Where to store the expression AST node on success. * * @note Syntax: * expression: * assignment-expression * expression , assignment-expression */ static int vdScriptParseExpression(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTEXPR *ppAstNodeExpr) { int rc = VINF_SUCCESS; PVDSCRIPTASTEXPR pAssignExpr = NULL; LogFlowFunc(("pThis=%p ppAstNodeExpr=%p\n", pThis, ppAstNodeExpr)); rc = vdScriptParseAssignmentExpression(pThis, &pAssignExpr); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ',')) { PVDSCRIPTASTEXPR pListAssignExpr = (PVDSCRIPTASTEXPR)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_EXPRESSION); if (pListAssignExpr) { pListAssignExpr->enmType = VDSCRIPTEXPRTYPE_ASSIGNMENT_LIST; RTListInit(&pListAssignExpr->ListExpr); RTListAppend(&pListAssignExpr->ListExpr, &pAssignExpr->Core.ListNode); do { rc = vdScriptParseAssignmentExpression(pThis, &pAssignExpr); if (RT_SUCCESS(rc)) RTListAppend(&pListAssignExpr->ListExpr, &pAssignExpr->Core.ListNode); } while ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ',')); if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pListAssignExpr->Core); else *ppAstNodeExpr = pListAssignExpr; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating expression AST node\n"); } else if (RT_SUCCESS(rc)) *ppAstNodeExpr = pAssignExpr; LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parse an if statement. * * @returns VBox status code. * @param pThis The script context. * @param pAstNodeIf Uninitialized if AST node. * * @note The caller skipped the "if" token already. */ static int vdScriptParseIf(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTIF pAstNodeIf) { int rc = VINF_SUCCESS; if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTEXPR pCondExpr = NULL; rc = vdScriptParseExpression(pThis, &pCondExpr); if (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTSTMT pStmt = NULL; PVDSCRIPTASTSTMT pElseStmt = NULL; rc = vdScriptParseStatement(pThis, &pStmt); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_ELSE)) rc = vdScriptParseStatement(pThis, &pElseStmt); if (RT_SUCCESS(rc)) { pAstNodeIf->pCond = pCondExpr; pAstNodeIf->pTrueStmt = pStmt; pAstNodeIf->pElseStmt = pElseStmt; } else if (pStmt) vdScriptAstNodeFree(&pStmt->Core); } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pCondExpr->Core); } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\", got ...\n"); return rc; } /** * Parse a switch statement. * * @returns VBox status code. * @param pThis The script context. * @param pAstNodeSwitch Uninitialized switch AST node. * * @note The caller skipped the "switch" token already. */ static int vdScriptParseSwitch(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSWITCH pAstNodeSwitch) { int rc = VINF_SUCCESS; if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTEXPR pExpr = NULL; rc = vdScriptParseExpression(pThis, &pExpr); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTSTMT pStmt = NULL; rc = vdScriptParseStatement(pThis, &pStmt); if (RT_SUCCESS(rc)) { pAstNodeSwitch->pCond = pExpr; pAstNodeSwitch->pStmt = pStmt; } else vdScriptAstNodeFree(&pExpr->Core); } else if (RT_SUCCESS(rc)) { rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); vdScriptAstNodeFree(&pExpr->Core); } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\", got ...\n"); return rc; } /** * Parse a while or do ... while statement. * * @returns VBox status code. * @param pThis The script context. * @param pAstNodeWhile Uninitialized while AST node. * * @note The caller skipped the "while" or "do" token already. */ static int vdScriptParseWhile(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTWHILE pAstNodeWhile, bool fDoWhile) { int rc = VINF_SUCCESS; pAstNodeWhile->fDoWhile = fDoWhile; if (fDoWhile) { PVDSCRIPTASTSTMT pStmt = NULL; rc = vdScriptParseStatement(pThis, &pStmt); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_WHILE)) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTEXPR pExpr = NULL; rc = vdScriptParseExpression(pThis, &pExpr); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) { pAstNodeWhile->pCond = pExpr; pAstNodeWhile->pStmt = pStmt; } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } else if (RT_SUCCESS(rc)) { rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); vdScriptAstNodeFree(&pExpr->Core); } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\", got ...\n"); } else if (RT_SUCCESS(rc)) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"while\", got ...\n"); if ( RT_FAILURE(rc) && pStmt) vdScriptAstNodeFree(&pStmt->Core); } else { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTEXPR pExpr = NULL; rc = vdScriptParseExpression(pThis, &pExpr); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTSTMT pStmt = NULL; rc = vdScriptParseStatement(pThis, &pStmt); if (RT_SUCCESS(rc)) { pAstNodeWhile->pCond = pExpr; pAstNodeWhile->pStmt = pStmt; } else vdScriptAstNodeFree(&pExpr->Core); } else if (RT_SUCCESS(rc)) { rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \")\", got ...\n"); vdScriptAstNodeFree(&pExpr->Core); } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\", got ...\n"); } return rc; } /** * Parse a for statement. * * @returns VBox status code. * @param pThis The script context. * @param pAstNodeFor Uninitialized for AST node. * * @note The caller skipped the "for" token already. */ static int vdScriptParseFor(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTFOR pAstNodeFor) { int rc = VINF_SUCCESS; if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTEXPR pExprStart = NULL; PVDSCRIPTASTEXPR pExprCond = NULL; PVDSCRIPTASTEXPR pExpr3 = NULL; rc = vdScriptParseExpression(pThis, &pExprStart); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) { rc = vdScriptParseExpression(pThis, &pExprCond); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) { rc = vdScriptParseExpression(pThis, &pExpr3); if ( RT_SUCCESS(rc) && vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTSTMT pStmt = NULL; rc = vdScriptParseStatement(pThis, &pStmt); if (RT_SUCCESS(rc)) { pAstNodeFor->pExprStart = pExprStart; pAstNodeFor->pExprCond = pExprCond; pAstNodeFor->pExpr3 = pExpr3; pAstNodeFor->pStmt = pStmt; } } } else if (RT_SUCCESS(rc)) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } else if (RT_SUCCESS(rc)) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); if (RT_FAILURE(rc)) { if (pExprStart) vdScriptAstNodeFree(&pExprStart->Core); if (pExprCond) vdScriptAstNodeFree(&pExprCond->Core); if (pExpr3) vdScriptAstNodeFree(&pExpr3->Core); } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\", got ...\n"); return rc; } /** * Parse a declaration. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeDecl Where to store the declaration AST node on success. */ static int vdScriptParseDeclaration(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTDECL *ppAstNodeDecl) { int rc = VERR_NOT_IMPLEMENTED; RT_NOREF2(pThis, ppAstNodeDecl); return rc; } /** * Parse a statement. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeStmt Where to store the statement AST node on success. */ static int vdScriptParseStatement(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSTMT *ppAstNodeStmt) { int rc = VINF_SUCCESS; /* Shortcut for a new compound statement. */ if (vdScriptTokenizerIsPunctuatorEqual(pThis->pTokenizer, '{')) rc = vdScriptParseCompoundStatement(pThis, ppAstNodeStmt); else { PVDSCRIPTASTSTMT pAstNodeStmt = (PVDSCRIPTASTSTMT)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_STATEMENT); if (pAstNodeStmt) { if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_DEFAULT)) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ':')) { PVDSCRIPTASTSTMT pAstNodeStmtDef = NULL; pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_DEFAULT; rc = vdScriptParseStatement(pThis, &pAstNodeStmtDef); if (RT_SUCCESS(rc)) pAstNodeStmt->pStmt = pAstNodeStmtDef; } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \":\", got ...\n"); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_CASE)) { PVDSCRIPTASTEXPR pAstNodeExpr = NULL; rc = vdScriptParseCondExpression(pThis, &pAstNodeExpr); if (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ':')) { PVDSCRIPTASTSTMT pAstNodeCaseStmt = NULL; rc = vdScriptParseStatement(pThis, &pAstNodeCaseStmt); if (RT_SUCCESS(rc)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_CASE; pAstNodeStmt->Case.pExpr = pAstNodeExpr; pAstNodeStmt->Case.pStmt = pAstNodeCaseStmt; } } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \":\", got ...\n"); if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pAstNodeExpr->Core); } } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_IF)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_IF; rc = vdScriptParseIf(pThis, &pAstNodeStmt->If); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_SWITCH)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_SWITCH; rc = vdScriptParseSwitch(pThis, &pAstNodeStmt->Switch); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_WHILE)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_WHILE; rc = vdScriptParseWhile(pThis, &pAstNodeStmt->While, false /* fDoWhile */); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_DO)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_WHILE; rc = vdScriptParseWhile(pThis, &pAstNodeStmt->While, true /* fDoWhile */); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_FOR)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_FOR; rc = vdScriptParseFor(pThis, &pAstNodeStmt->For); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_CONTINUE)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_CONTINUE; if (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_BREAK)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_BREAK; if (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } else if (vdScriptTokenizerSkipIfIsKeywordEqual(pThis->pTokenizer, VDSCRIPTTOKENKEYWORD_RETURN)) { pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_RETURN; if (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) { rc = vdScriptParseExpression(pThis, &pAstNodeStmt->pExpr); if ( RT_SUCCESS(rc) && !vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } else pAstNodeStmt->pExpr = NULL; /* No expression for return. */ } else { /* Must be an expression. */ pAstNodeStmt->enmStmtType = VDSCRIPTSTMTTYPE_EXPRESSION; rc = vdScriptParseExpression(pThis, &pAstNodeStmt->pExpr); if ( RT_SUCCESS(rc) && !vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ';')) rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \";\", got ...\n"); } if (RT_SUCCESS(rc)) *ppAstNodeStmt = pAstNodeStmt; else vdScriptAstNodeFree(&pAstNodeStmt->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory creating statement node\n"); } return rc; } /** * Parses a compound statement. * * @returns VBox status code. * @param pThis The script context. * @param ppAstNodeCompound Where to store the compound AST node on success. */ static int vdScriptParseCompoundStatement(PVDSCRIPTCTXINT pThis, PVDSCRIPTASTSTMT *ppAstNodeCompound) { int rc = VINF_SUCCESS; if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '{')) { PVDSCRIPTASTSTMT pAstNodeCompound = (PVDSCRIPTASTSTMT)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_STATEMENT); if (pAstNodeCompound) { pAstNodeCompound->enmStmtType = VDSCRIPTSTMTTYPE_COMPOUND; RTListInit(&pAstNodeCompound->Compound.ListDecls); RTListInit(&pAstNodeCompound->Compound.ListStmts); while (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '}')) { /* * Check whether we have a declaration or a statement. * For now we assume that 2 identifier tokens specify a declaration * (type + variable name). Having two consecutive identifers is not possible * for a statement. */ if ( vdScriptTokenizerGetTokenClass(pThis->pTokenizer) == VDTOKENCLASS_IDENTIFIER && vdScriptTokenizerPeekNextClass(pThis->pTokenizer) == VDTOKENCLASS_IDENTIFIER) { PVDSCRIPTASTDECL pAstNodeDecl = NULL; rc = vdScriptParseDeclaration(pThis, &pAstNodeDecl); if (RT_SUCCESS(rc)) RTListAppend(&pAstNodeCompound->Compound.ListDecls, &pAstNodeDecl->Core.ListNode); } else { PVDSCRIPTASTSTMT pAstNodeStmt = NULL; rc = vdScriptParseStatement(pThis, &pAstNodeStmt); if (RT_SUCCESS(rc)) RTListAppend(&pAstNodeCompound->Compound.ListStmts, &pAstNodeStmt->Core.ListNode); } if (RT_FAILURE(rc)) break; } if (RT_SUCCESS(rc)) *ppAstNodeCompound = pAstNodeCompound; else vdScriptAstNodeFree(&pAstNodeCompound->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory creating compound statement node\n"); } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"{\" got...\n"); return rc; } /** * Parses a function definition from the given tokenizer. * * @returns VBox status code. * @param pThis The script context. */ static int vdScriptParseAddFnDef(PVDSCRIPTCTXINT pThis) { int rc = VINF_SUCCESS; PVDSCRIPTASTIDE pRetType = NULL; PVDSCRIPTASTIDE pFnIde = NULL; LogFlowFunc(("pThis=%p\n", pThis)); /* Put return type on the stack. */ rc = vdScriptParseIde(pThis, &pRetType); if (RT_SUCCESS(rc)) { /* Function name */ rc = vdScriptParseIde(pThis, &pFnIde); if (RT_SUCCESS(rc)) { if (vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, '(')) { PVDSCRIPTASTFN pAstNodeFn = (PVDSCRIPTASTFN)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_FUNCTION); if (pAstNodeFn) { pAstNodeFn->pFnIde = pFnIde; pAstNodeFn->pRetType = pRetType; RTListInit(&pAstNodeFn->ListArgs); pFnIde = NULL; pRetType = NULL; /* Parse parameter list, create empty parameter list AST node and put it on the stack. */ while (!vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ')')) { PVDSCRIPTASTIDE pArgType = NULL; PVDSCRIPTASTIDE pArgIde = NULL; /* Parse two identifiers, first one is the type, second the name. */ rc = vdScriptParseIde(pThis, &pArgType); if (RT_SUCCESS(rc)) rc = vdScriptParseIde(pThis, &pArgIde); if (RT_SUCCESS(rc)) { PVDSCRIPTASTFNARG pAstNodeFnArg = (PVDSCRIPTASTFNARG)vdScriptAstNodeAlloc(VDSCRIPTASTCLASS_FUNCTIONARG); if (pAstNodeFnArg) { pAstNodeFnArg->pArgIde = pArgIde; pAstNodeFnArg->pType = pArgType; RTListAppend(&pAstNodeFn->ListArgs, &pAstNodeFnArg->Core.ListNode); pAstNodeFn->cArgs++; } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating function argument AST node\n"); } if (RT_FAILURE(rc)) { if (pArgType) vdScriptAstNodeFree(&pArgType->Core); if (pArgIde) vdScriptAstNodeFree(&pArgIde->Core); } if ( !vdScriptTokenizerSkipIfIsPunctuatorEqual(pThis->pTokenizer, ',') && !vdScriptTokenizerIsPunctuatorEqual(pThis->pTokenizer, ')')) { rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \",\" or \")\" got...\n"); break; } } /* Parse the compound or statement block now. */ if (RT_SUCCESS(rc)) { PVDSCRIPTASTSTMT pAstCompound = NULL; rc = vdScriptParseCompoundStatement(pThis, &pAstCompound); if (RT_SUCCESS(rc)) { /* * Link compound statement block to function AST node and add it to the * list of functions. */ pAstNodeFn->pCompoundStmts = pAstCompound; RTListAppend(&pThis->ListAst, &pAstNodeFn->Core.ListNode); PVDSCRIPTFN pFn = (PVDSCRIPTFN)RTMemAllocZ(sizeof(VDSCRIPTFN)); if (pFn) { pFn->Core.pszString = pAstNodeFn->pFnIde->aszIde; pFn->Core.cchString = strlen(pFn->Core.pszString); pFn->fExternal = false; pFn->Type.Internal.pAstFn = pAstNodeFn; /** @todo Parameters. */ RTStrSpaceInsert(&pThis->hStrSpaceFn, &pFn->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Out of memory allocating memory for function\n"); } } if (RT_FAILURE(rc)) vdScriptAstNodeFree(&pAstNodeFn->Core); } else rc = vdScriptParserError(pThis, VERR_NO_MEMORY, RT_SRC_POS, "Parser: Out of memory allocating function AST node\n"); } else rc = vdScriptParserError(pThis, VERR_INVALID_PARAMETER, RT_SRC_POS, "Parser: Expected \"(\" got...\n"); } } if (RT_FAILURE(rc)) { if (pRetType) vdScriptAstNodeFree(&pRetType->Core); if (pFnIde) vdScriptAstNodeFree(&pFnIde->Core); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } /** * Parses the script from the given tokenizer. * * @returns VBox status code. * @param pThis The script context. */ static int vdScriptParseFromTokenizer(PVDSCRIPTCTXINT pThis) { int rc = VINF_SUCCESS; LogFlowFunc(("pThis=%p\n", pThis)); /* This is a very very simple LL(1) parser, don't expect much from it for now :). */ while ( RT_SUCCESS(rc) && !vdScriptTokenizerIsEos(pThis->pTokenizer)) rc = vdScriptParseAddFnDef(pThis); LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } DECLHIDDEN(int) VDScriptCtxCreate(PVDSCRIPTCTX phScriptCtx) { int rc = VINF_SUCCESS; LogFlowFunc(("phScriptCtx=%p\n", phScriptCtx)); AssertPtrReturn(phScriptCtx, VERR_INVALID_POINTER); PVDSCRIPTCTXINT pThis = (PVDSCRIPTCTXINT)RTMemAllocZ(sizeof(VDSCRIPTCTXINT)); if (pThis) { pThis->hStrSpaceFn = NULL; RTListInit(&pThis->ListAst); *phScriptCtx = pThis; } else rc = VINF_SUCCESS; LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } static DECLCALLBACK(int) vdScriptCtxDestroyFnSpace(PRTSTRSPACECORE pStr, void *pvUser) { NOREF(pvUser); /* * Just free the whole structure, the AST for internal functions will be * destroyed later. */ RTMemFree(pStr); return VINF_SUCCESS; } DECLHIDDEN(void) VDScriptCtxDestroy(VDSCRIPTCTX hScriptCtx) { PVDSCRIPTCTXINT pThis = hScriptCtx; AssertPtrReturnVoid(pThis); LogFlowFunc(("hScriptCtx=%p\n", pThis)); RTStrSpaceDestroy(&pThis->hStrSpaceFn, vdScriptCtxDestroyFnSpace, NULL); /* Go through list of function ASTs and destroy them. */ PVDSCRIPTASTCORE pIter; PVDSCRIPTASTCORE pIterNext; RTListForEachSafe(&pThis->ListAst, pIter, pIterNext, VDSCRIPTASTCORE, ListNode) { RTListNodeRemove(&pIter->ListNode); RTListInit(&pIter->ListNode); vdScriptAstNodeFree(pIter); } RTMemFree(pThis); } DECLHIDDEN(int) VDScriptCtxCallbacksRegister(VDSCRIPTCTX hScriptCtx, PCVDSCRIPTCALLBACK paCallbacks, unsigned cCallbacks, void *pvUser) { int rc = VINF_SUCCESS; PVDSCRIPTCTXINT pThis = hScriptCtx; LogFlowFunc(("hScriptCtx=%p paCallbacks=%p cCallbacks=%u pvUser=%p\n", pThis, paCallbacks, cCallbacks, pvUser)); AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(paCallbacks, VERR_INVALID_POINTER); AssertReturn(cCallbacks > 0, VERR_INVALID_PARAMETER); /** @todo Unregister already registered callbacks in case of an error. */ do { PVDSCRIPTFN pFn = NULL; if (RTStrSpaceGet(&pThis->hStrSpaceFn, paCallbacks->pszFnName)) { rc = VERR_DUPLICATE; break; } pFn = (PVDSCRIPTFN)RTMemAllocZ(RT_UOFFSETOF_DYN(VDSCRIPTFN, aenmArgTypes[paCallbacks->cArgs])); if (!pFn) { rc = VERR_NO_MEMORY; break; } /** @todo Validate argument and returns types. */ pFn->Core.pszString = paCallbacks->pszFnName; pFn->Core.cchString = strlen(pFn->Core.pszString); pFn->fExternal = true; pFn->Type.External.pfnCallback = paCallbacks->pfnCallback; pFn->Type.External.pvUser = pvUser; pFn->enmTypeRetn = paCallbacks->enmTypeReturn; pFn->cArgs = paCallbacks->cArgs; for (unsigned i = 0; i < paCallbacks->cArgs; i++) pFn->aenmArgTypes[i] = paCallbacks->paArgs[i]; RTStrSpaceInsert(&pThis->hStrSpaceFn, &pFn->Core); cCallbacks--; paCallbacks++; } while (cCallbacks); LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } DECLHIDDEN(int) VDScriptCtxLoadScript(VDSCRIPTCTX hScriptCtx, const char *pszScript) { int rc = VINF_SUCCESS; PVDSCRIPTCTXINT pThis = hScriptCtx; LogFlowFunc(("hScriptCtx=%p pszScript=%p\n", pThis, pszScript)); AssertPtrReturn(pThis, VERR_INVALID_POINTER); AssertPtrReturn(pszScript, VERR_INVALID_POINTER); PVDTOKENIZER pTokenizer = vdScriptTokenizerCreate(pszScript); if (pTokenizer) { pThis->pTokenizer = pTokenizer; rc = vdScriptParseFromTokenizer(pThis); pThis->pTokenizer = NULL; RTMemFree(pTokenizer); } LogFlowFunc(("returns rc=%Rrc\n", rc)); return rc; } DECLHIDDEN(int) VDScriptCtxCallFn(VDSCRIPTCTX hScriptCtx, const char *pszFnCall, PVDSCRIPTARG paArgs, unsigned cArgs) { PVDSCRIPTCTXINT pThis = hScriptCtx; VDSCRIPTARG Ret; return vdScriptCtxInterprete(pThis, pszFnCall, paArgs, cArgs, &Ret); }