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view lwasm/lwasm.h @ 430:e34c8bd6ea29
Actually handle "-n" argument to lwar correctly
Thank you to David Flamand <dlflamand@gmail.com> for pointing out that you
need to update every reference to an option when you change it....
author | William Astle <lost@l-w.ca> |
---|---|
date | Wed, 16 Nov 2016 10:14:06 -0700 |
parents | 4411a6123716 |
children | 58cafa61ab40 |
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/* lwasm.h Copyright © 2010 William Astle This file is part of LWTOOLS. LWTOOLS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ #ifndef ___lwasm_h_seen___ #define ___lwasm_h_seen___ #ifdef _MSC_VER #include <lw_win.h> // windows build #endif #include <lw_expr.h> #include <lw_stringlist.h> #include <lw_stack.h> #include <lw_version.h> // these are allowed chars BELOW 0x80 for symbols // first is symbol start chars, second is anywhere in symbol #define SSYMCHARS "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz_@$" #define SYMCHARS SSYMCHARS ".?0123456789" typedef struct asmstate_s asmstate_t; enum { lwasm_expr_linelen = 1, // length of ref'd line lwasm_expr_lineaddr = 2, // addr of ref'd line lwasm_expr_nextbp = 3, // next branch point lwasm_expr_prevbp = 4, // previous branch point lwasm_expr_syment = 5, // symbol table entry lwasm_expr_import = 6, // symbol import entry lwasm_expr_secbase = 7, // section base address lwasm_expr_linedaddr = 8, // data address of the line lwasm_expr_linedlen = 9 // data length of the line }; enum lwasm_output_e { OUTPUT_DECB = 0, // DECB multirecord format OUTPUT_BASIC, // Color BASIC program OUTPUT_RAW, // raw sequence of bytes OUTPUT_OBJ, // proprietary object file format OUTPUT_RAWREL, // raw bytes where ORG causes a SEEK in the file OUTPUT_OS9, // os9 module target OUTPUT_SREC, // motorola SREC format OUTPUT_IHEX, // intel hex format OUTPUT_HEX // generic hexadecimal format }; enum lwasm_flags_e { FLAG_LIST = 0x0001, FLAG_DEPEND = 0x0002, FLAG_SYMBOLS = 0x004, FLAG_DEPENDNOERR = 0x0008, FLAG_UNICORNS = 0x0010, FLAG_MAP = 0x0020, FLAG_SYMBOLS_NOLOCALS = 0x0040, FLAG_NONE = 0 }; enum lwasm_pragmas_e { PRAGMA_NONE = 0, // no pragmas in effect PRAGMA_DOLLARNOTLOCAL = 1 << 0, // dollar sign does not make a symbol local PRAGMA_NOINDEX0TONONE = 1 << 1, // do not change implicit 0,R to ,R PRAGMA_UNDEFEXTERN = 1 << 2, // undefined symbols are considered to be external PRAGMA_CESCAPES = 1 << 3, // allow C style escapes in fcc, fcs, fcn, etc. PRAGMA_IMPORTUNDEFEXPORT = 1 << 4, // imports symbol if undefined upon export PRAGMA_PCASPCR = 1 << 5, // treats ,PC as ,PCR instead of constant offset PRAGMA_SHADOW = 1 << 6, // allow macros to shadow builtin operations PRAGMA_NOLIST = 1 << 7, // don't show line in listing PRAGMA_AUTOBRANCHLENGTH = 1 << 8, // automatically select proper length for relative branches PRAGMA_EXPORT = 1 << 9, // export symbols by default, unless local PRAGMA_SYMBOLNOCASE = 1 << 10, // symbols defined under this pragma are matched case insensitively PRAGMA_CONDUNDEFZERO = 1 << 11, // treat undefined symbols as zero in conditionals during pass 1 PRAGMA_6800COMPAT = 1 << 12, // enable 6800 compatibility opcodes PRAGMA_FORWARDREFMAX = 1 << 13, // force incomplete references on pass 1 to maximum mode PRAGMA_6809 = 1 << 14, // 6809/6309 assembly mode PRAGMA_TESTMODE = 1 << 15, // enable test mode (for internal unit testing) PRAGMA_C = 1 << 16, // enable cycle counts PRAGMA_CD = 1 << 17, // enable detailed cycle count PRAGMA_CT = 1 << 18, // enable cycle count running total PRAGMA_CC = 1 << 19, // clear cycle count running total PRAGMA_QRTS = 1 << 20, // enable BRA ?RTS support PRAGMA_M80EXT = 1 << 21, // enable Macro-80C assembler extensions PRAGMA_6809CONV = 1 << 22, // enable 6809 convenience ops PRAGMA_6309CONV = 1 << 23, // enable 6309 convenience ops PRAGMA_NEWSOURCE = 1 << 24, // don't use compatibility source format PRAGMA_CLEARBIT = 1 << 31 // reserved to indicate negated pragma flag status }; enum { section_flag_bss = 1, // BSS section section_flag_constant = 2, // constants - no base offset section_flag_none = 0 // no flags }; typedef struct reloctab_s reloctab_t; struct reloctab_s { lw_expr_t offset; // offset of relocation int size; // size of relocation lw_expr_t expr; // relocation expression reloctab_t *next; }; typedef struct sectiontab_s sectiontab_t; struct sectiontab_s { char *name; // section name int flags; // section flags; lw_expr_t offset; // offset for next instance int oblen; // size of section output int obsize; // size of output buffer unsigned char *obytes; // output buffer reloctab_t *reloctab; // table of relocations sectiontab_t *next; }; typedef enum { TF_EMIT = 1, TF_ERROR = 2 } lwasm_testflags_t; typedef enum { E_6309_INVALID = 1, E_6809_INVALID = 2, E_ALIGNMENT_INVALID = 3, E_BITNUMBER_UNRESOLVED = 4, E_BITNUMBER_INVALID = 5, E_BYTE_OVERFLOW = 6, E_CONDITION_P1 = 7, E_DIRECTIVE_OS9_ONLY = 8, E_DIV0 = 9, E_EXEC_ADDRESS = 10, E_FILL_INVALID = 11, E_IMMEDIATE_INVALID = 12, E_IMMEDIATE_UNRESOLVED = 13, E_EXPRESSION_BAD = 14, E_EXPRESSION_NOT_CONST = 15, E_EXPRESSION_NOT_RESOLVED = 16, E_FILE_OPEN = 17, E_FILENAME_MISSING = 18, E_INSTRUCTION_FAILED = 19, E_INSTRUCTION_SECTION = 20, E_LINE_ADDRESS = 21, E_LINED_ADDRESS = 22, E_MACRO_DUPE = 23, E_MACRO_ENDM = 24, E_MACRO_NONAME = 25, E_MACRO_RECURSE = 26, E_MODULE_IN = 27, E_MODULE_NOTIN = 28, E_NEGATIVE_BLOCKSIZE = 29, E_NEGATIVE_RESERVATION = 30, E_NW_8 = 31, E_OPCODE_BAD = 32, E_OPERAND_BAD = 33, E_OBJTARGET_ONLY = 34, E_PADDING_BAD = 35, E_PRAGMA_UNRECOGNIZED = 36, E_REGISTER_BAD = 37, E_SECTION_END = 38, E_SECTION_EXTDEP = 39, E_SECTION_FLAG = 40, E_SECTION_NAME = 41, E_SECTION_TARGET = 42, E_SETDP_INVALID = 43, E_SETDP_NOT_CONST = 44, E_STRING_BAD = 45, E_STRUCT_DUPE = 46, E_STRUCT_NONAME = 47, E_STRUCT_NOSYMBOL = 48, E_STRUCT_RECURSE = 49, E_SYMBOL_BAD = 50, E_SYMBOL_DUPE = 51, E_SYMBOL_MISSING = 52, E_SYMBOL_UNDEFINED = 53, E_SYMBOL_UNDEFINED_EXPORT = 54, E_UNKNOWN_OPERATION = 55, E_USER_SPECIFIED = 56, E_ORG_NOT_FOUND = 57, /* warnings must be 1000 or greater */ W_DUPLICATE_SECTION = 1000, W_ENDSTRUCT_WITHOUT = 1001, W_NOT_SUPPORTED = 1002, W_USER_SPECIFIED = 1003 } lwasm_errorcode_t; typedef struct lwasm_error_s lwasm_error_t; struct lwasm_error_s { lwasm_errorcode_t code; // error code char *mess; // actual error message int charpos; // character position on line where parsing stopped lwasm_error_t *next; // ptr to next error }; struct line_expr_s { lw_expr_t expr; int id; struct line_expr_s *next; }; typedef struct line_s line_t; typedef struct exportlist_s exportlist_t; struct exportlist_s { char *symbol; // symbol to export struct symtabe *se; // symbol table entry line_t *line; // line the export is on exportlist_t *next; // next in the export list }; typedef struct importlist_s importlist_t; struct importlist_s { char *symbol; // symbol to import importlist_t *next; // next in the import list }; typedef enum { CYCLE_ADJ = 1, CYCLE_ESTIMATED = 2 } cycle_flags; struct line_s { lw_expr_t addr; // assembly address of the line lw_expr_t daddr; // data address of the line (os9 only) int len; // the "size" this line occupies (address space wise) (-1 if unknown) int dlen; // the data "size" this line occupies (-1 if unknown) int minlen; // minimum length int maxlen; // maximum length int insn; // number of insn in insn table int symset; // set if the line symbol was consumed by the instruction char *sym; // symbol, if any, on the line unsigned char *output; // output bytes int outputl; // size of output int outputbl; // size of output buffer int dpval; // direct page value int cycle_base; // base instruction cycle count int cycle_adj; // cycle adjustment int cycle_flags; // cycle flags int genmode; // generation mode (insn_parse_gen0/8/16) int fcc_extras; // fcc extra bytes lwasm_error_t *err; // list of errors lwasm_error_t *warn; // list of errors lwasm_errorcode_t err_testmode; // error code in testmode line_t *prev; // previous line line_t *next; // next line int inmod; // inside a module? sectiontab_t *csect; // which section are we in? struct line_expr_s *exprs; // expressions used during parsing char *lstr; // string passed forward int pb; // pass forward post byte int lint; // pass forward integer int lint2; // another pass forward integer int conditional_return; // for ?RTS handling (1 if RTS follows) asmstate_t *as; // assembler state data ptr int pragmas; // pragmas in effect for the line int context; // the symbol context number char *ltext; // line number char *linespec; // line spec int lineno; // line number int soff; // struct offset (for listings) int dshow; // data value to show (for listings) int dsize; // set to 1 for 8 bit dshow value int isbrpt; // set to 1 if this line is a branch point struct symtabe *dptr; // symbol value to display int noexpand_start; // start of a no-expand block int noexpand_end; // end of a no-expand block int hideline; // set if we're going to hide this line on output }; enum { symbol_flag_set = 1, // symbol was used with "set" symbol_flag_nocheck = 2, // do not check symbol characters symbol_flag_nolist = 4, // no not show symbol in symbol table symbol_flag_nocase = 8, // do not match case of symbol symbol_flag_none = 0 // no flags }; struct symtabe { char *symbol; // the name of the symbol int context; // symbol context (-1 for global) int version; // version of the symbol (for "set") int flags; // flags for the symbol sectiontab_t *section; // section the symbol is defined in lw_expr_t value; // symbol value struct symtabe *left; // left subtree pointer struct symtabe *right; // right subtree pointer struct symtabe *nextver; // next lower version }; typedef struct { struct symtabe *head; // start of symbol table } symtab_t; typedef struct macrotab_s macrotab_t; struct macrotab_s { char *name; // name of macro char **lines; // macro lines int numlines; // number lines in macro int flags; // flags for the macro macrotab_t *next; // next macro in list line_t *definedat; // the line where the macro definition starts }; enum { macro_noexpand = 1 // set to not expland the macro by default in listing }; typedef struct structtab_s structtab_t; typedef struct structtab_field_s structtab_field_t; struct structtab_field_s { char *name; // structure field name - NULL for anonymous int size; // structure field size structtab_t *substruct; // sub structure if there is one structtab_field_t *next; // next field entry }; struct structtab_s { char *name; // name of structure int size; // number of bytes taken by struct structtab_field_t *fields; // fields in the structure structtab_t *next; // next structure line_t *definedat; // line where structure is defined }; struct asmstate_s { int output_format; // output format int debug_level; // level of debugging requested FILE *debug_file; // FILE * to output debug messages to int flags; // assembly flags int pragmas; // pragmas currently in effect int errorcount; // number of errors encountered int warningcount; // number of warnings issued int testmode_errorcount; // number of errors in testmode int inmacro; // are we in a macro? int instruct; // are w in a structure? int skipcond; // skipping a condition? int skipcount; // depth of "skipping" int skipmacro; // are we skipping in a macro? int endseen; // have we seen an "end" pseudo? int execaddr; // address from "end" int inmod; // inside an os9 module? int undefzero; // used for handling "condundefzero" int pretendmax; // set if we need to pretend the instruction is max length unsigned char crc[3]; // crc accumulator int cycle_total; // cycle count accumulator int badsymerr; // throw error on undef sym if set line_t *line_head; // start of lines list line_t *line_tail; // tail of lines list line_t *cl; // current line pointer sectiontab_t *csect; // current section int context; // the current "context" int nextcontext; // the next available context symtab_t symtab; // meta data for the symbol table macrotab_t *macros; // macro table sectiontab_t *sections; // section table exportlist_t *exportlist; // list of exported symbols importlist_t *importlist; // list of imported symbols char *list_file; // name of file to list to int tabwidth; // tab width in list file char *map_file; // name of map file char *output_file; // output file name lw_stringlist_t input_files; // files to assemble void *input_data; // opaque data used by the input system lw_stringlist_t include_list; // include paths lw_stack_t file_dir; // stack of the "current file" dir lw_stack_t includelist; structtab_t *structs; // defined structures structtab_t *cstruct; // current structure lw_expr_t savedaddr; // old address counter before struct started int exportcheck; // set if we need to collapse out the section base to 0 int passno; // set to the current pass number int preprocess; // set if we are prepocessing int fileerr; // flags error opening file int exprwidth; // the bit width of the expression being evaluated }; struct symtabe *register_symbol(asmstate_t *as, line_t *cl, char *sym, lw_expr_t value, int flags); struct symtabe *lookup_symbol(asmstate_t *as, line_t *cl, char *sym); int parse_pragma_helper(char *p); int lwasm_cycle_calc_ind(line_t *cl); int lwasm_cycle_calc_rlist(line_t *cl); void lwasm_cycle_update_count(line_t *cl, int opc); void lwasm_parse_testmode_comment(line_t *cl, lwasm_testflags_t *flags, lwasm_errorcode_t *err, int *len, char **buf); void lwasm_error_testmode(line_t *cl, const char* msg, int fatal); void lwasm_register_error(asmstate_t *as, line_t *cl, lwasm_errorcode_t err); void lwasm_register_error2(asmstate_t *as, line_t *cl, lwasm_errorcode_t err, const char* fmt, ...); int lwasm_next_context(asmstate_t *as); void lwasm_emit(line_t *cl, int byte); void lwasm_emitop(line_t *cl, int opc); void lwasm_save_expr(line_t *cl, int id, lw_expr_t expr); lw_expr_t lwasm_fetch_expr(line_t *cl, int id); lw_expr_t lwasm_parse_expr(asmstate_t *as, char **p); int lwasm_emitexpr(line_t *cl, lw_expr_t expr, int s); void skip_operand_real(line_t *l, char **p); /* this macro can only be used where "l" is the current line pointer */ #define skip_operand(p) skip_operand_real(l, p) int lwasm_lookupreg2(const char *rlist, char **p); int lwasm_lookupreg3(const char *rlist, char **p); void lwasm_show_errors(asmstate_t *as); int lwasm_reduce_expr(asmstate_t *as, lw_expr_t expr); lw_expr_t lwasm_parse_cond(asmstate_t *as, char **p); int lwasm_calculate_range(asmstate_t *as, lw_expr_t expr, int *min, int *max); void lwasm_reduce_line_exprs(line_t *cl); #ifdef LWASM_NODEBUG #define debug_message(...) #define dump_state(...) #else void real_debug_message(asmstate_t *as, int level, const char *fmt, ...); void dump_state(asmstate_t *as); #define debug_message(as,level,...) do { asmstate_t *ras = (as); int rlevel = (level); if (ras->debug_level >= rlevel) { real_debug_message(ras, rlevel, __VA_ARGS__); } } while (0) #endif #define OPLEN(op) (((op)>0xFF)?2:1) #define CURPRAGMA(l,p) (((l) && ((l)->pragmas & (p))) ? 1 : 0) /* some functions for parsing */ /* skip to the start of the next token if the current parsing mode allows it */ void lwasm_skip_to_next_token(line_t *cl, char **p); #endif /* ___lwasm_h_seen___ */