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/**************************** error.cpp ********************************** * Author: Agner Fog * Date created: 2017-11-03 * Last modified: 2021-03-30 * Version: 1.11 * Project: Binary tools for ForwardCom instruction set * Module: error.cpp * Description: * Standard procedure for error reporting to stderr * * Copyright 2006-2021 GNU General Public License http://www.gnu.org/licenses ****************************************************************************** You may set breakpoints here to trace errors (use stack trace) Runtime errors during emulation are not going here, but to CThread::interrupt in emulator6.cpp *****************************************************************************/ #include "stdafx.h" // Make and initialize error reporter object CErrorReporter err; // General error messages // to do: remove unused error messages! SErrorText errorTexts[] = { // Unknown error {0, 2, "Unknown error!"}, // Warning messages {ERR_EMPTY_OPTION, 1, "Empty command line option"}, {ERR_UNKNOWN_OPTION, 2, "Unknown command line option: %s"}, {ERR_UNKNOWN_ERROR_NUM, 1, "Unknown warning/error number: %i"}, {ERR_OUTFILE_IGNORED, 1, "Output file name ignored"}, {ERR_MEMBER_NOT_FOUND_EXTRACT, 1, "Library member %s not found. Extraction failed"}, {ERR_MEMBER_NOT_FOUND_DEL, 1, "Library member %s not found. Deletion failed"}, {ERR_DUPLICATE_NAME_COMMANDL, 1, "Library member %s specified more than once"}, // duplicate name on command line {ERR_DUPLICATE_NAME_IN_LIB, 1, "Library has more than one members named %s"}, // duplicate name in library {ERR_DUPLICATE_SYMBOL_IN_LIB, 1, "More than one symbol named %s in modules %s"}, // duplicate symbol in library {ERR_NO_SYMTAB_IN_LIB, 2, "No ForwardCom symbol table found in library"}, // probably wrong library type {ERR_ABS_RELOCATION_WARN, 1, "Code at line %i is position dependent because it contains absolute address of symbol: %s"}, // warn if absolute address {ERR_LIBRARY_FILE_TYPE, 2, "Library file has wrong type: %s"}, // expecting library file {ERR_LIBRARY_FILE_CORRUPT, 2, "Library file is corrupt"}, // index out of range in library file {ERR_LIBRARY_LIST_ONLY, 2, "Library list command cannnot be combined with other commands"}, // conflicting commands {ERR_LIBRARY_MEMBER_TYPE, 2, "Library member %s has wrong type: %s"}, // expecting ForwardCom object file {ERR_LINK_LIST_ONLY, 2, "Linker list command cannnot be combined with other commands"}, // conflicting commands {ERR_LINK_FILE_TYPE, 2, "Wrong file type. Expecting ForwardCom object file: %s"}, // wrong file type to linker {ERR_LINK_FILE_TYPE_LIB, 2, "Wrong file type. Expecting ForwardCom library file: %s"}, // wrong file type to linker {ERR_LINK_FILE_TYPE_EXE, 2, "Wrong file type. Expecting ForwardCom executable file: %s"}, // wrong file type to emulator {ERR_LINK_COMMUNAL, 1, "Communal section %s has different sizes in modules %s"}, // communal sections not identical {ERR_LINK_DUPLICATE_SYMBOL, 1, "More than one symbol named %s in modules %s"}, // duplicate symbol encountered during linking {ERR_LINK_DIFFERENT_BASE, 2, "Link source and target use different base pointers. Cannot link from module %s to symbol %s in module %s"}, // link source and target use different base pointers {ERR_LINK_MISALIGNED_TARGET, 2, "Link target is misaligned. Scaling failed when linking from module %s to symbol %s in module %s"}, // link target alignment does not fit scale factor {ERR_LINK_OVERFLOW, 2, "Address overflow when linking from module %s to symbol %s in module %s"}, // relocation overflow {ERR_LINK_RELOCATION_OVERFLOW, 2, "Address overflow when linking to symbol %s"}, // relocation overflow {ERR_LINK_REGUSE, 2, "Mismatched register use when linking from module %s to symbol %s. Missing registers: %s"}, // register use mismatch {ERR_LINK_MODULE_NOT_FOUND, 2, "Module %s not found in library %s"}, // cannot find explicitly specified library module {ERR_EVENT_SIZE, 1, "Wrong size of event handler records in module %s"}, // event section size not divisible by event record size {ERR_REL_SYMBOL_NOT_FOUND, 2, "Relocated symbol not found"}, // relocation failed. should not occur {ERR_CANT_RELINK_MODULE, 2, "Module %s is not relinkable. Cannot remove or replace"}, // attempt to delete or replace non-relinkable module {ERR_CANT_RELINK_LIBRARY, 2, "Library %s is not relinkable. Cannot remove or replace"}, // attempt to delete or replace non-relinkable library {ERR_RELINK_MODULE_NOT_FOUND, 1, "Module %s not found in input file. Cannot remove or replace"}, // attempt to delete or replace non-existing module {ERR_RELINK_LIBRARY_NOT_FOUND, 1, "Library %s not found in input file. Cannot remove or replace"}, // attempt to delete or replace non-existing library {ERR_RELINK_BASE_POINTER_MOD, 2, "Base pointer overridden during relinking. Relative addresses may be wrong"}, // base pointer has been overridden during relinking {ERR_INPUT_NOT_RELINKABLE, 2, "File %s is not relinkable"}, // attempt to relink non-relinkable file {ERR_LINK_UNRESOLVED, 2, "Unresolved external symbol %s in module %s"}, // symbol not found in any module or library {ERR_LINK_UNRESOLVED_WARN, 1, "Unresolved external symbol %s in module %s"}, // symbol not found. warn only because incomplete output allowed // Error messages {ERR_MULTIPLE_IO_FILES, 2, "No more than one input file and one output file can be specified"}, //? {ERR_MULTIPLE_COMMANDS, 2, "More than one command specified on command line: %s"}, {ERR_UNKNOWN_OPTION, 2, "Unknown command line option: %s"}, {ERR_FILES_SAME_NAME, 2, "Input file and output file cannot have same name: %s"}, {ERR_DUMP_NOT_SUPPORTED, 2, "Sorry. Dump of file type %s is not supported"}, {ERR_INDEX_OUT_OF_RANGE, 2, "Index out of range"}, {ERR_ELF_RECORD_SIZE, 2, "Error in ELF file. Record size wrong"}, {ERR_ELF_SYMTAB_MISSING, 2, "Symbol table not found in ELF file"}, {ERR_ELF_INDEX_RANGE, 2, "Index out of range in object file"}, {ERR_ELF_UNKNOWN_SECTION, 2, "Unknown section index in ELF file: %i"}, {ERR_ELF_STRING_TABLE, 2, "String table corrupt"}, {ERR_ELF_NO_SECTIONS, 2, "File with absolute constants must have at least one section, even if empty"}, {ERR_CONTAINER_INDEX, 2, "Index out of range in internal container"}, {ERR_CONTAINER_OVERFLOW, 2, "Overflow of internal container"}, {ERR_INPUT_FILE, 2, "Cannot read input file %s"}, {ERR_OUTPUT_FILE, 2, "Cannot write output file %s"}, {ERR_UNKNOWN_FILE_TYPE, 2, "Unknown file type %i: %s"}, {ERR_FILE_SIZE, 2, "Wrong size of file %s"}, {ERR_TOO_MANY_RESP_FILES, 2, "Too many response files"}, {ERR_FILE_NAME_LONG, 2, "File name %s too long"}, {ERR_INSTRUCTION_LIST_SYNTAX, 2, "Syntax error in instruction list: %s"}, {ERR_INSTRUCTION_LIST_QUOTE, 2, "Unmatched quote in instruction list, line %i"}, //? // Fatal errors makes the program stop immediately: {ERR_INTERNAL, 9, "Objconv program internal inconsistency"}, // table fault, etc. {ERR_TOO_MANY_ERRORS, 9, "Too many errors. Aborting"}, {ERR_BIG_ENDIAN, 9, "This machine has big-endian memory organization or other incompatibility. Program cannot be compiled on this machine."}, {ERR_MEMORY_ALLOCATION, 9, "Memory allocation failed"}, // Mark end of list {9999, 9999, "End of error text list"} }; // Error messages for assembly file SErrorText assemErrorTexts[] = { // the status number indicates if an extra string is required {0, 0, "misplaced unknown token"}, {TOK_NAM, 1, "unknown name: "}, {TOK_LAB, 1, "misplaced label: "}, {TOK_VAR, 1, "misplaced variable: "}, {TOK_SEC, 1, "misplaced section name: "}, {TOK_INS, 1, "misplaced instruction: "}, {TOK_OPR, 1, "misplaced operator: "}, {TOK_NUM, 1, "misplaced number: "}, {TOK_FLT, 1, "misplaced floating point number: "}, {TOK_CHA, 1, "misplaced character constant: "}, {TOK_STR, 1, "misplaced string: "}, {TOK_DIR, 1, "misplaced directive: "}, {TOK_ATT, 1, "misplaced attribute: "}, {TOK_TYP, 1, "misplaced type name: "}, {TOK_OPT, 1, "misplaced option: "}, {TOK_REG, 1, "misplaced register: "}, {TOK_SYM, 1, "misplaced symbol: "}, {TOK_XPR, 1, "misplaced expression: "}, {TOK_HLL, 1, "misplaced keyword: "}, {ERR_CONTROL_CHAR, 1, "illegal control character: "}, {ERR_ILLEGAL_CHAR, 1, "illegal character: "}, {ERR_COMMENT_BEGIN, 0, "unmatched comment begin: /*"}, {ERR_COMMENT_END, 0, "unmatched comment end: */"}, {ERR_BRACKET_BEGIN, 1, "unmatched begin bracket: "}, {ERR_BRACKET_END, 1, "unmatched end bracket: "}, {ERR_QUOTE_BEGIN, 1, "unmatched begin quote: "}, {ERR_QUESTION_MARK, 0, "unmatched '?'"}, {ERR_COLON, 0, "unmatched ':'"}, {ERR_SYMBOL_DEFINED, 1, "symbol already defined, cannot redefine: "}, {ERR_SYMBOL_UNDEFINED, 1, "symbol not defined: "}, {ERR_MULTIDIMENSIONAL, 1, "multidimensional array not allowed: "}, {ERR_UNFINISHED_VAR, 1, "unfinished variable declaration: "}, {ERR_MISSING_EXPR, 1, "expecting expression: "}, {ERR_CONFLICT_ARRAYSZ, 1, "conflicting array size: "}, {ERR_CONFLICT_TYPE, 1, "conflicting type of symbol: "}, {ERR_CONDITION, 1, "expression cannot be used for condition: "}, {ERR_OVERFLOW, 1, "expression overflow: "}, {ERR_WRONG_TYPE, 1, "wrong operand type for operator: "}, {ERR_WRONG_TYPE_VAR, 1, "wrong or mismatched type for variable (must be int64, double, string, register, or memory operand): "}, {ERR_WRONG_OPERANDS, 1, "wrong operands for this instruction: "}, {ERR_MISSING_DESTINATION,1, "this instruction needs a destination: "}, {ERR_NO_DESTINATION, 1, "this instruction should not have a destination: "}, {ERR_NOT_OP_AMBIGUOUS, 0, "'!' operator is ambiguous. For booleans and masks replace !A by A^1. For numeric operands replace !A by A==0"}, {ERR_TOO_COMPLEX, 1, "expression does not fit into a single instruction: "}, {ERR_MASK_NOT_REGISTER, 1, "mask must be a register: "}, {ERR_FALLBACK_WRONG, 1, "fallback must be a register 0-30 or zero: "}, {ERR_CONSTANT_TOO_LARGE, 1, "constant too large for specified type: "}, {ERR_ALIGNMENT, 1, "alignment must be a power of 2, not higher than 4096: "}, // maximum alignment value must equal MAX_ALIGN in assem.h {ERR_SECTION_DIFFERENT_TYPE,1, "redefinition of section is different type: "}, {ERR_EXPECT_COLON, 1, "expecting colon after label: "}, {ERR_STRING_TYPE, 1, "string must have type int8: "}, {ERR_NONZERO_IN_BSS, 1, "data in uninitialized section must be zero: "}, {ERR_SYMBOL_REDEFINED, 1, "symbol has been assigned more than one value: "}, {ERR_EXPORT_EXPRESSION, 1, "cannot export expression: "}, {ERR_CANNOT_EXPORT, 1, "cannot export: "}, {ERR_CODE_WO_SECTION, 1, "code without section: "}, {ERR_DATA_WO_SECTION, 1, "data without section: "}, {ERR_MIX_DATA_AND_CODE, 1, "code and data in same section: "}, {ERR_MUST_BE_CONSTANT, 1, "value must be constant: "}, {ERR_MEM_COMPONENT_TWICE,1, "component of memory operand specified twice: "}, {ERR_SCALE_FACTOR, 1, "wrong scale factor for this instruction: "}, {ERR_MUST_BE_GP, 1, "vector length must be general purpose register: "}, {ERR_LIMIT_AND_OFFSET, 1, "memory operand cannot have both limit and offset: "}, {ERR_NOT_INSIDE_MEM, 1, "this option is not allowed inside memory operand: "}, {ERR_TOO_MANY_OPERANDS, 1, "too many operands: "}, {ERR_TOO_FEW_OPERANDS, 1, "not enough operands: "}, {ERR_OPERANDS_WRONG_ORDER,1, "operands in wrong order. register operands must come first: "}, {ERR_BOTH_MEM_AND_IMMEDIATE, 1, "this instruction cannot have both a memory operand and immediate constant: "}, // except store in format 2.7B and VARIANT_M1 {ERR_BOTH_MEM_AND_OPTIONS, 1, "this instruction cannot have both a memory operand and options: "}, {ERR_UNFINISHED_INSTRUCTION, 1, "unfinished instruction: "}, {ERR_TYPE_MISSING, 1, "type must be specified: "}, {ERR_MASK_FALLBACK_TYPE, 0, "mask and fallback must have same register type as destination"}, {ERR_NEG_INDEX_LENGTH, 0, "length register must be the same as negative index register"}, {ERR_INDEX_AND_LENGTH, 0, "memory operand cannot have length or broadcast with positive index"}, {ERR_MASK_REGISTER, 0, "mask must be register 0-6"}, {ERR_LIMIT_TOO_HIGH, 1, "limit on memory index cannot exceed 0xFFFF: "}, {ERR_NO_INSTRUCTION_FIT, 1, "no version of this instruction fits the specified operands: "}, {ERR_CANNOT_SWAP_VECT, 0, "cannot change the order of vector registers. if the vectors have the same length then put the register operands before the constant or memory operand"}, {ERR_EXPECT_JUMP_TARGET, 1, "expecting jump target: "}, {ERR_JUMP_TARGET_MISALIGN, 1, "jump target offset must be divisible by 4: "}, {ERR_ABS_RELOCATION, 1, "absolute address not possible here: "}, {ERR_RELOCATION_DOMAIN, 1, "cannot calculate difference between two symbols in different domains: "}, {ERR_WRONG_REG_TYPE, 1, "wrong type for register operand: "}, {ERR_CONFLICT_OPTIONS, 1, "conflicting options: "}, {ERR_VECTOR_OPTION, 1, "vector option applied to non-vector operands: "}, {ERR_LENGTH_OPTION_MISS, 1, "vector memory operand must have scalar, length, or broadcast option: "}, {ERR_DEST_BROADCAST, 0, "memory destination cannot have broadcast"}, {ERR_OFFSET_TOO_LARGE, 1, "address offset too large: "}, {ERR_LIMIT_TOO_LARGE, 1, "limit too large: "}, {ERR_IMMEDIATE_TOO_LARGE,1, "instruction format does not have space for full-size constant and option/signbits: "}, {ERR_TOO_LARGE_FOR_JUMP, 1, "conditional jump does not have space for 64-bit constant: "}, {ERR_CANNOT_HAVE_OPTION, 1, "this instruction cannot have options: "}, {ERR_CANNOT_HAVEFALLBACK1, 1, "this instruction cannot have a fallback register: "}, {ERR_CANNOT_HAVEFALLBACK2, 1, "the fallback must be the same as the first source operand when there is a memory operand with index or vector: "}, {ERR_3OP_AND_FALLBACK, 1, "the fallback must be the same as the first source operand on instructions with three operands: "}, {ERR_3OP_AND_MEM, 1, "the first source register must be the same as the destination when there is a memory operand with index or vector: "}, {ERR_R28_30_BASE, 1, "cannot use r28-r30 as base pointer with more than 8 bits offset: "}, {ERR_NO_BASE, 1, "memory operand has no base pointer: "}, {ERR_MEM_WO_BRACKET, 1, "memory operand requires [] bracket: "}, {ERR_UNKNOWN, 1, "unknown assembly error"}, {ERR_UNMATCHED_END, 0, "unmatched end"}, {ERR_SECTION_MISS_END, 1, "missing end of section: "}, {ERR_FUNCTION_MISS_END, 1, "missing end of function: "}, {ERR_ELSE_WO_IF, 1, "else without if: "}, {ERR_EXPECT_PARENTHESIS, 1, "expecting parenthesis: "}, {ERR_EXPECT_BRACKET, 1, "expecting '{' bracket: "}, {ERR_EXPECT_LOGICAL, 1, "expecting logical expression: "}, {ERR_MEM_NOT_ALLOWED, 1, "cannot have memory operand: "}, //{ERR_MUST_BE_POW2, 1, "constant must have only one bit set: "}, {ERR_WHILE_EXPECTED, 1, "'do' statement requires a 'while' here: "}, {ERR_MISPLACED_BREAK, 1, "nothing: to break out of: "}, {ERR_MISPLACED_CONTINUE, 1, "no loop to continue: "} }; // buffer for text strings (this cannot be member of CMemoryBuffer because CErrorReporter must be defined before CMemoryBuffer) static CMemoryBuffer strings; // Members of class CErrorReporter: reporting of general errors // Constructor for CErrorReporter CErrorReporter::CErrorReporter() { numErrors = numWarnings = worstError = 0; maxWarnings = 50; // Max number of warning messages to pring maxErrors = 50; // Max number of error messages to print } SErrorText * CErrorReporter::FindError(int ErrorNumber) { // Search for error in ErrorTexts int e; const int ErrorTextsLength = sizeof(errorTexts) / sizeof(errorTexts[0]); for (e = 0; e < ErrorTextsLength; e++) { if (errorTexts[e].errorNumber == ErrorNumber) return errorTexts + e; } // Error number not found static SErrorText UnknownErr = errorTexts[0]; UnknownErr.errorNumber = ErrorNumber; UnknownErr.status = 0x102; // Unknown error return &UnknownErr; } void CErrorReporter::submit(int ErrorNumber) { // Print error message with no extra info SErrorText * err = FindError(ErrorNumber); handleError(err, err->text); } void CErrorReporter::submit(int ErrorNumber, int extra) { // Print error message with extra numeric info // ErrorTexts[ErrorNumber] must contain %i where extra is to be inserted SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + 10); sprintf((char*)strings.buf(), err->text, extra); handleError(err, (char*)strings.buf()); } void CErrorReporter::submit(int ErrorNumber, int extra1, int extra2) { // Print error message with 2 extra numeric values inserted // ErrorTexts[ErrorNumber] must contain two %i fields where extra numbers are to be inserted SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + 20); sprintf((char*)strings.buf(), err->text, extra1, extra2); handleError(err, (char*)strings.buf()); } void CErrorReporter::submit(int ErrorNumber, char const * extra) { // Print error message with extra text info // ErrorTexts[ErrorNumber] must contain %s where extra is to be inserted if (extra == 0) extra = "???"; SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + (uint32_t)strlen(extra)); sprintf((char*)strings.buf(), err->text, extra); handleError(err, (char*)strings.buf()); } void CErrorReporter::submit(int ErrorNumber, char const * extra1, char const * extra2) { // Print error message with two extra text info fields // ErrorTexts[ErrorNumber] must contain %s where extra texts are to be inserted if (extra1 == 0) extra1 = "???"; if (extra2 == 0) extra2 = "???"; SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + (uint32_t)strlen(extra1) + (uint32_t)strlen(extra2)); sprintf((char*)strings.buf(), err->text, extra1, extra2); handleError(err, (char*)strings.buf()); } void CErrorReporter::submit(int ErrorNumber, char const * extra1, char const * extra2, char const * extra3) { // Print error message with three extra text info fields // ErrorTexts[ErrorNumber] must contain %s where extra texts are to be inserted if (extra1 == 0) extra1 = "???"; if (extra2 == 0) extra2 = "???"; if (extra3 == 0) extra3 = "???"; SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + (uint32_t)strlen(extra1) + (uint32_t)strlen(extra2) + (uint32_t)strlen(extra3)); sprintf((char*)strings.buf(), err->text, extra1, extra2, extra3); handleError(err, (char*)strings.buf()); } void CErrorReporter::submit(int ErrorNumber, int extra1, char const * extra2) { // Print error message with two extra text fields inserted // ErrorTexts[ErrorNumber] must contain %i and %s where extra texts are to be inserted if (extra2 == 0) extra2 = "???"; SErrorText * err = FindError(ErrorNumber); strings.setSize((uint32_t)strlen(err->text) + 10 + (uint32_t)strlen(extra2)); sprintf((char*)strings.buf(), err->text, extra1, extra2); handleError(err, (char*)strings.buf()); } // Write an error message. // To trace a runtime error message: set a breakpoint here !½ void CErrorReporter::handleError(SErrorText * err, char const * text) { // HandleError is used by submit functions // check severity int severity = err->status & 0x0F; if (severity == 0) { return; // Ignore message } if (severity > 1 && err->errorNumber > worstError) { // Store highest error number worstError = err->errorNumber; } if (severity == 1) { // Treat message as warning if (++numWarnings > maxWarnings) return; // Maximum number of warnings has been printed // Treat message as warning fprintf(stderr, "\nWarning %i: %s", err->errorNumber, text); if (numWarnings == maxWarnings) { // Maximum number reached fprintf(stderr, "\nSupressing further warning messages"); } } else { // Treat message as error if (++numErrors > maxErrors) return; // Maximum number of warnings has been printed fprintf(stderr, "\nError %i: %s", err->errorNumber, text); if (numErrors == maxErrors) { // Maximum number reached fprintf(stderr, "\nSupressing further warning messages"); } } if (severity == 9) { // Abortion required fprintf(stderr, "\nAborting\n"); exit(err->errorNumber); } } int CErrorReporter::number() { // Get number of fatal errors return numErrors; } int CErrorReporter::getWorstError() { // Get highest warning or error number encountered return worstError; } void CErrorReporter::clearError(int ErrorNumber) { // Ignore further occurrences of this error int e; const int ErrorTextsLength = sizeof(errorTexts) / sizeof(errorTexts[0]); for (e = 0; e < ErrorTextsLength; e++) { if (errorTexts[e].errorNumber == ErrorNumber) break; } if (e < ErrorTextsLength) { errorTexts[e].status = 0; } } // Members of class CAssemErrors: reporting of errors in assembly file CAssemErrors::CAssemErrors() { // Constructor maxErrors = cmd.maxErrors; } void CAssemErrors::setOwner(CAssembler * a) { // Give access to CAssembler owner = a; } uint32_t CAssemErrors::numErrors() { // Return number of errors return list.numEntries(); } bool CAssemErrors::tooMany() { // true if too many errors return list.numEntries() >= maxErrors; } // Report an error in assembly file // To trace an assembly error: set a breakpoint here ½ void CAssemErrors::report(uint32_t position, uint32_t stringLength, uint32_t num) { // position: position in input file // stringLength: length of token // num = index into assemErrorTexts or token type owner->lineError = true; // avoid reporting multiple errors on same line uint32_t linei = owner->linei; if (linei < owner->lines.numEntries()) { owner->lines[owner->linei].type = LINE_ERROR; // mark current line as error } if (tooMany()) return; SAssemError e; e.pos = position; e.stringLength = stringLength; e.file = owner->filei; e.num = num; e.pass = owner->pass; // save error record list.push(e); } // Report a misplaced token void CAssemErrors::report(SToken const & token) { report(token.pos, token.stringLength, token.type); } // Report an error in current line void CAssemErrors::reportLine(uint32_t num) { int tokenB = owner->lines[owner->linei].firstToken; int tokenN = owner->lines[owner->linei].numTokens; if (tokenB <= 0 || tokenN <= 0) { num = ERR_UNKNOWN; tokenB = 0; tokenN = 1; } report(owner->tokens[tokenB].pos, owner->tokens[tokenB + tokenN - 1].pos + owner->tokens[tokenB + tokenN - 1].stringLength - owner->tokens[tokenB].pos, num); } void CAssemErrors::outputErrors() { // Output errors to STDERR const uint32_t tabstops = 8; // default position of tabstops if (list.numEntries() == 0) return; const char * text1; char text2[256]; const char * filename = cmd.getFilename(cmd.inputFile); // owner->fileName; // to do: support include filenames const uint32_t errorTextsLength = TableSize(assemErrorTexts); uint32_t i, j, texti; uint32_t lastPass = 0; for (i = 0; i < list.numEntries() && i < maxErrors; i++) { // tell which pass if verbose option if (list[i].pass != lastPass && cmd.verbose) { printf("\n\nDuring pass %i:", list[i].pass); lastPass = list[i].pass; } // find line containing error uint32_t line; uint32_t numLines = owner->lines.numEntries(); uint32_t pos = list[i].pos; for (line = 0; line < numLines; line++) { if (pos < owner->lines[line].beginPos) break; } line--; // if this line has multiple records in lines[] then find the first one j = line; while (j > 0 && owner->lines[j - 1].linenum == owner->lines[line].linenum) j--; line = j; // find column uint32_t pos1 = owner->lines[line].beginPos; uint32_t stringLength = list[i].stringLength; uint32_t column = pos - pos1; // count UTF-8 multibyte characters in line up to error position int32_t extraBytes = 0; int8_t c; // current character for (uint32_t pp = pos1; pp < pos1 + column; pp++) { if (pp >= owner->dataSize()) break; c = *(owner->buf() + pp); if ((c & 0xC0) == 0xC0) extraBytes--; // count UTF-8 continuation bytes if (c == '\t') { uint32_t pos2 = (pp + tabstops) % tabstops; // find next tabstop extraBytes += pos2 - pp - 1; } } // adjust column number to 1-based. count UTF-8 characters as one column += extraBytes + 1; // find text texti = list[i].num; for (j = 0; j < errorTextsLength; j++) { if ((uint32_t)assemErrorTexts[j].errorNumber == texti) break; } if (j >= errorTextsLength) j = 0; text1 = assemErrorTexts[j].text; if (assemErrorTexts[j].status && stringLength < sizeof(text2)) { // extra text required memcpy(text2, owner->buf() + pos, stringLength); text2[stringLength] = 0; } else text2[0] = 0; if (filename) { fprintf(stderr, "\n%s:", filename); } else { fprintf(stderr, "\n"); } fprintf(stderr, "%i:%i: %s%s", owner->lines[line].linenum, column, text1, text2); } }
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