From 151e3f782333acbe349fdaac3ec843e42e95be3f Mon Sep 17 00:00:00 2001 From: Gavin Howard Date: Wed, 8 Aug 2018 00:15:50 -0600 Subject: Add bc (and its tests) to pending --- toys/pending/bc.c | 5892 +++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 5892 insertions(+) create mode 100644 toys/pending/bc.c (limited to 'toys/pending') diff --git a/toys/pending/bc.c b/toys/pending/bc.c new file mode 100644 index 00000000..0130d80a --- /dev/null +++ b/toys/pending/bc.c @@ -0,0 +1,5892 @@ +/* bc.c - An implementation of POSIX bc. + * + * Copyright 2018 Gavin D. Howard + * + * See http://pubs.opengroup.org/onlinepubs/9699919799/utilities/bc.html + +USE_BC(NEWTOY(bc, "i(interactive)l(mathlib)q(quiet)s(standard)w(warn)", TOYFLAG_USR|TOYFLAG_BIN|TOYFLAG_LOCALE)) + +config BC + bool "bc" + default n + help + usage: bc [-ilqsw] [file ...] + + bc is a command-line calculator with a Turing-complete language. + + options: + + -i --interactive force interactive mode + -l --mathlib use predefined math routines: + + s(expr) = sine of expr in radians + c(expr) = cosine of expr in radians + a(expr) = arctangent of expr, returning radians + l(expr) = natural log of expr + e(expr) = raises e to the power of expr + j(n, x) = Bessel function of integer order n of x + + -q --quiet don't print version and copyright + -s --standard error if any non-POSIX extensions are used + -w --warn warn if any non-POSIX extensions are used + +*/ + +#define FOR_bc +#include "toys.h" + +GLOBALS( + long tty; + + unsigned long sig; + unsigned long sigc; + unsigned long signe; + long sig_other; +) + +typedef enum BcStatus { + + BC_STATUS_SUCCESS, + + BC_STATUS_MALLOC_FAIL, + BC_STATUS_IO_ERR, + BC_STATUS_BINARY_FILE, + + BC_STATUS_LEX_BAD_CHARACTER, + BC_STATUS_LEX_NO_STRING_END, + BC_STATUS_LEX_NO_COMMENT_END, + BC_STATUS_LEX_EOF, + + BC_STATUS_PARSE_BAD_TOKEN, + BC_STATUS_PARSE_BAD_EXPR, + BC_STATUS_PARSE_BAD_PRINT, + BC_STATUS_PARSE_BAD_FUNC, + BC_STATUS_PARSE_BAD_ASSIGN, + BC_STATUS_PARSE_NO_AUTO, + BC_STATUS_PARSE_DUPLICATE_LOCAL, + + BC_STATUS_MATH_NEGATIVE, + BC_STATUS_MATH_NON_INTEGER, + BC_STATUS_MATH_OVERFLOW, + BC_STATUS_MATH_DIVIDE_BY_ZERO, + BC_STATUS_MATH_NEG_SQRT, + BC_STATUS_MATH_BAD_STRING, + + BC_STATUS_EXEC_FILE_ERR, + BC_STATUS_EXEC_MISMATCHED_PARAMS, + BC_STATUS_EXEC_UNDEFINED_FUNC, + BC_STATUS_EXEC_FILE_NOT_EXECUTABLE, + BC_STATUS_EXEC_SIGACTION_FAIL, + BC_STATUS_EXEC_BAD_SCALE, + BC_STATUS_EXEC_BAD_IBASE, + BC_STATUS_EXEC_BAD_OBASE, + BC_STATUS_EXEC_STRING_LEN, + BC_STATUS_EXEC_ARRAY_LEN, + BC_STATUS_EXEC_BAD_READ_EXPR, + BC_STATUS_EXEC_NESTED_READ, + BC_STATUS_EXEC_BAD_TYPE, + BC_STATUS_EXEC_SIGNAL, + + BC_STATUS_POSIX_NAME_LEN, + BC_STATUS_POSIX_SCRIPT_COMMENT, + BC_STATUS_POSIX_BAD_KEYWORD, + BC_STATUS_POSIX_DOT_LAST, + BC_STATUS_POSIX_RETURN_PARENS, + BC_STATUS_POSIX_BOOL_OPS, + BC_STATUS_POSIX_REL_OUTSIDE, + BC_STATUS_POSIX_MULTIPLE_REL, + BC_STATUS_POSIX_NO_FOR_INIT, + BC_STATUS_POSIX_NO_FOR_COND, + BC_STATUS_POSIX_NO_FOR_UPDATE, + BC_STATUS_POSIX_HEADER_BRACE, + + BC_STATUS_VEC_OUT_OF_BOUNDS, + BC_STATUS_VEC_ITEM_EXISTS, + + BC_STATUS_QUIT, + BC_STATUS_LIMITS, + +} BcStatus; + +#define BC_ERR_IDX_BC (0) +#define BC_ERR_IDX_LEX (1) +#define BC_ERR_IDX_PARSE (2) +#define BC_ERR_IDX_MATH (3) +#define BC_ERR_IDX_EXEC (4) +#define BC_ERR_IDX_POSIX (5) + +#define BC_VEC_INITIAL_CAP (32) + +typedef void (*BcVecFreeFunc)(void*); +typedef int (*BcVecCmpFunc)(void*, void*); + +typedef struct BcVec { + + uint8_t *array; + size_t len; + size_t cap; + size_t size; + + BcVecFreeFunc dtor; + +} BcVec; + +typedef struct BcVecO { + + BcVec vec; + BcVecCmpFunc cmp; + +} BcVecO; + +#define bc_veco_item(v, idx) (bc_vec_item(&(v)->vec, (idx))) +#define bc_veco_free(v) (bc_vec_free(&(v)->vec)) + +typedef signed char BcDigit; + +typedef struct BcNum { + + BcDigit *num; + size_t rdx; + size_t len; + size_t cap; + int neg; + +} BcNum; + +#define BC_NUM_MIN_BASE (2) +#define BC_NUM_MAX_INPUT_BASE (16) +#define BC_NUM_DEF_SIZE (16) + +#define BC_NUM_PRINT_WIDTH (69) + +#define BC_NUM_ONE(n) ((n)->len == 1 && (n)->rdx == 0 && (n)->num[0] == 1) + +typedef BcStatus (*BcNumUnaryFunc)(BcNum*, BcNum*, size_t); +typedef BcStatus (*BcNumBinaryFunc)(BcNum*, BcNum*, BcNum*, size_t); +typedef BcStatus (*BcNumDigitFunc)(size_t, size_t, int, size_t*, size_t); + +BcStatus bc_num_init(BcNum *n, size_t request); +BcStatus bc_num_expand(BcNum *n, size_t request); +BcStatus bc_num_copy(BcNum *d, BcNum *s); +void bc_num_free(void *num); + +BcStatus bc_num_ulong(BcNum *n, unsigned long *result); +BcStatus bc_num_ulong2num(BcNum *n, unsigned long val); + +BcStatus bc_num_add(BcNum *a, BcNum *b, BcNum *result, size_t scale); +BcStatus bc_num_sub(BcNum *a, BcNum *b, BcNum *result, size_t scale); +BcStatus bc_num_mul(BcNum *a, BcNum *b, BcNum *result, size_t scale); +BcStatus bc_num_div(BcNum *a, BcNum *b, BcNum *result, size_t scale); +BcStatus bc_num_mod(BcNum *a, BcNum *b, BcNum *result, size_t scale); +BcStatus bc_num_pow(BcNum *a, BcNum *b, BcNum *result, size_t scale); + +ssize_t bc_num_cmp(BcNum *a, BcNum *b); + +void bc_num_zero(BcNum *n); +void bc_num_one(BcNum *n); +void bc_num_ten(BcNum *n); + +typedef enum BcInst { + + BC_INST_INC_PRE, + BC_INST_DEC_PRE, + BC_INST_INC_POST, + BC_INST_DEC_POST, + + BC_INST_NEG, + + BC_INST_POWER, + BC_INST_MULTIPLY, + BC_INST_DIVIDE, + BC_INST_MODULUS, + BC_INST_PLUS, + BC_INST_MINUS, + + BC_INST_REL_EQ, + BC_INST_REL_LE, + BC_INST_REL_GE, + BC_INST_REL_NE, + BC_INST_REL_LT, + BC_INST_REL_GT, + + BC_INST_BOOL_NOT, + BC_INST_BOOL_OR, + BC_INST_BOOL_AND, + + BC_INST_ASSIGN_POWER, + BC_INST_ASSIGN_MULTIPLY, + BC_INST_ASSIGN_DIVIDE, + BC_INST_ASSIGN_MODULUS, + BC_INST_ASSIGN_PLUS, + BC_INST_ASSIGN_MINUS, + BC_INST_ASSIGN, + + BC_INST_PUSH_NUM, + BC_INST_PUSH_VAR, + BC_INST_PUSH_ARRAY_ELEM, + + BC_INST_CALL, + + BC_INST_SCALE_FUNC, + BC_INST_PUSH_IBASE, + BC_INST_PUSH_SCALE, + BC_INST_PUSH_LAST, + BC_INST_LENGTH, + BC_INST_READ, + BC_INST_PUSH_OBASE, + BC_INST_SQRT, + + BC_INST_PRINT, + BC_INST_PRINT_EXPR, + BC_INST_STR, + BC_INST_PRINT_STR, + + BC_INST_JUMP, + BC_INST_JUMP_ZERO, + + BC_INST_POP, + + BC_INST_RETURN, + BC_INST_RETURN_ZERO, + + BC_INST_HALT, + +} BcInst; + +typedef struct BcEntry { + + char *name; + size_t idx; + +} BcEntry; + +typedef struct BcAuto { + + char *name; + int var; + +} BcAuto; + +typedef struct BcFunc { + + BcVec code; + BcVec labels; + size_t nparams; + BcVec autos; + +} BcFunc; + +typedef enum BcResultType { + + BC_RESULT_TEMP, + + BC_RESULT_CONSTANT, + + BC_RESULT_ARRAY_AUTO, + BC_RESULT_VAR_AUTO, + + BC_RESULT_VAR, + BC_RESULT_ARRAY, + + BC_RESULT_SCALE, + BC_RESULT_LAST, + BC_RESULT_IBASE, + BC_RESULT_OBASE, + + BC_RESULT_ONE, + +} BcResultType; + +typedef struct BcResult { + + BcResultType type; + + union { + + BcNum num; + BcVec array; + BcEntry id; + + } data; + +} BcResult; + +typedef struct BcInstPtr { + + size_t func; + size_t idx; + size_t len; + +} BcInstPtr; + +void bc_auto_free(void *auto1); + +// BC_LEX_OP_NEGATE is not used in lexing; it is only for parsing. +typedef enum BcLexToken { + + BC_LEX_OP_INC, + BC_LEX_OP_DEC, + + BC_LEX_OP_NEG, + + BC_LEX_OP_POWER, + BC_LEX_OP_MULTIPLY, + BC_LEX_OP_DIVIDE, + BC_LEX_OP_MODULUS, + BC_LEX_OP_PLUS, + BC_LEX_OP_MINUS, + + BC_LEX_OP_REL_EQUAL, + BC_LEX_OP_REL_LESS_EQ, + BC_LEX_OP_REL_GREATER_EQ, + BC_LEX_OP_REL_NOT_EQ, + BC_LEX_OP_REL_LESS, + BC_LEX_OP_REL_GREATER, + + BC_LEX_OP_BOOL_NOT, + BC_LEX_OP_BOOL_OR, + BC_LEX_OP_BOOL_AND, + + BC_LEX_OP_ASSIGN_POWER, + BC_LEX_OP_ASSIGN_MULTIPLY, + BC_LEX_OP_ASSIGN_DIVIDE, + BC_LEX_OP_ASSIGN_MODULUS, + BC_LEX_OP_ASSIGN_PLUS, + BC_LEX_OP_ASSIGN_MINUS, + BC_LEX_OP_ASSIGN, + + BC_LEX_NEWLINE, + + BC_LEX_WHITESPACE, + + BC_LEX_LEFT_PAREN, + BC_LEX_RIGHT_PAREN, + + BC_LEX_LEFT_BRACKET, + BC_LEX_COMMA, + BC_LEX_RIGHT_BRACKET, + + BC_LEX_LEFT_BRACE, + BC_LEX_SEMICOLON, + BC_LEX_RIGHT_BRACE, + + BC_LEX_STRING, + BC_LEX_NAME, + BC_LEX_NUMBER, + + BC_LEX_KEY_AUTO, + BC_LEX_KEY_BREAK, + BC_LEX_KEY_CONTINUE, + BC_LEX_KEY_DEFINE, + BC_LEX_KEY_ELSE, + BC_LEX_KEY_FOR, + BC_LEX_KEY_HALT, + BC_LEX_KEY_IBASE, + BC_LEX_KEY_IF, + BC_LEX_KEY_LAST, + BC_LEX_KEY_LENGTH, + BC_LEX_KEY_LIMITS, + BC_LEX_KEY_OBASE, + BC_LEX_KEY_PRINT, + BC_LEX_KEY_QUIT, + BC_LEX_KEY_READ, + BC_LEX_KEY_RETURN, + BC_LEX_KEY_SCALE, + BC_LEX_KEY_SQRT, + BC_LEX_KEY_WHILE, + + BC_LEX_EOF, + BC_LEX_INVALID, + +} BcLexToken; + +typedef struct BcLex { + + const char *buffer; + size_t idx; + size_t line; + int newline; + const char *file; + size_t len; + + struct { + BcLexToken type; + char *string; + } token; + +} BcLex; + +typedef struct BcLexKeyword { + + const char name[9]; + const char len; + const int posix; + +} BcLexKeyword; + +#define BC_LEX_KW_ENTRY(a, b, c) { .name = a, .len = (b), .posix = (c) } + +#define BC_PROGRAM_BUF_SIZE (1024) + +typedef struct BcProgram { + + BcVec ip_stack; + + size_t line_len; + + size_t scale; + + BcNum ibase; + size_t ibase_t; + BcNum obase; + size_t obase_t; + + BcVec results; + BcVec stack; + + BcVec funcs; + BcVecO func_map; + + BcVec vars; + BcVecO var_map; + + BcVec arrays; + BcVecO array_map; + + BcVec strings; + BcVec constants; + + const char *file; + + BcNum last; + + BcNum zero; + BcNum one; + + size_t nchars; + +} BcProgram; + +#define BC_PROGRAM_MAIN (0) +#define BC_PROGRAM_READ (1) + +#define BC_PROGRAM_SEARCH_VAR (1<<0) +#define BC_PROGRAM_SEARCH_ARRAY (1<<1) + +typedef unsigned long (*BcProgramBuiltInFunc)(BcNum*); +typedef void (*BcNumInitFunc)(BcNum*); + +BcStatus bc_program_addFunc(BcProgram *p, char *name, size_t *idx); +BcStatus bc_program_reset(BcProgram *p, BcStatus status); + +BcStatus bc_program_exec(BcProgram *p); + +#define BC_PARSE_TOP_FLAG_PTR(parse) ((uint8_t*) bc_vec_top(&(parse)->flags)) + +#define BC_PARSE_TOP_FLAG(parse) (*(BC_PARSE_TOP_FLAG_PTR(parse))) + +#define BC_PARSE_FLAG_FUNC_INNER (0x01) + +#define BC_PARSE_FUNC_INNER(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_FUNC_INNER) + +#define BC_PARSE_FLAG_FUNC (0x02) + +#define BC_PARSE_FUNC(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_FUNC) + +#define BC_PARSE_FLAG_BODY (0x04) + +#define BC_PARSE_BODY(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_BODY) + +#define BC_PARSE_FLAG_LOOP (0x08) + +#define BC_PARSE_LOOP(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_LOOP) + +#define BC_PARSE_FLAG_LOOP_INNER (0x10) + +#define BC_PARSE_LOOP_INNER(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_LOOP_INNER) + +#define BC_PARSE_FLAG_IF (0x20) + +#define BC_PARSE_IF(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_IF) + +#define BC_PARSE_FLAG_ELSE (0x40) + +#define BC_PARSE_ELSE(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_ELSE) + +#define BC_PARSE_FLAG_IF_END (0x80) + +#define BC_PARSE_IF_END(parse) \ + (BC_PARSE_TOP_FLAG(parse) & BC_PARSE_FLAG_IF_END) + +#define BC_PARSE_CAN_EXEC(parse) \ + (!(BC_PARSE_TOP_FLAG(parse) & (BC_PARSE_FLAG_FUNC_INNER | \ + BC_PARSE_FLAG_FUNC | \ + BC_PARSE_FLAG_BODY | \ + BC_PARSE_FLAG_LOOP | \ + BC_PARSE_FLAG_LOOP_INNER | \ + BC_PARSE_FLAG_IF | \ + BC_PARSE_FLAG_ELSE | \ + BC_PARSE_FLAG_IF_END))) + +// We can calculate the conversion between tokens and exprs +// by subtracting the position of the first operator in the +// lex enum and adding the position of the first in the expr +// enum. Note: This only works for binary operators. +#define BC_PARSE_TOKEN_TO_INST(type) ((type) - BC_LEX_OP_NEG + BC_INST_NEG) + +typedef struct BcOp { + + uint8_t prec; + int left; + +} BcOp; + +typedef struct BcParse { + + BcLex lex; + + BcVec flags; + + BcVec exits; + BcVec conds; + + BcVec ops; + + BcProgram *prog; + size_t func; + + size_t num_braces; + + int auto_part; + +} BcParse; + +#define BC_PARSE_EXPR_POSIX_REL (1<<0) +#define BC_PARSE_EXPR_PRINT (1<<1) +#define BC_PARSE_EXPR_NOCALL (1<<2) +#define BC_PARSE_EXPR_NOREAD (1<<3) + +BcStatus bc_parse_expr(BcParse *p, BcVec *code, uint8_t flags); + +#define maxof_BASE (999) +#define maxof_DIM (INT_MAX) +#define maxof_SCALE (LONG_MAX) +#define maxof_STRING (INT_MAX) + +#define BC_BUF_SIZE (1024) + +typedef struct Bc { + + BcParse parse; + BcProgram prog; + +} Bc; + +BcStatus bc_error(BcStatus st); +BcStatus bc_error_file(BcStatus st, const char *file, size_t line); + +BcStatus bc_posix_error(BcStatus s, const char *file, + size_t line, const char *msg); + +BcStatus bc_io_fread(const char *path, char **buf); + +const char *bc_header = + "bc 1.0\n" + "bc copyright (c) 2018 Gavin D. Howard and contributors\n" + "Report bugs at: https://github.com/gavinhoward/bc\n\n" + "This is free software with ABSOLUTELY NO WARRANTY.\n\n"; + +const char bc_err_fmt[] = "\n%s error: %s\n\n"; + +const char *bc_errs[] = { + "bc", + "Lex", + "Parse", + "Math", + "Runtime", + "POSIX", +}; + +const uint8_t bc_err_indices[] = { + BC_ERR_IDX_BC, BC_ERR_IDX_BC, BC_ERR_IDX_BC, BC_ERR_IDX_BC, + BC_ERR_IDX_LEX, BC_ERR_IDX_LEX, BC_ERR_IDX_LEX, BC_ERR_IDX_LEX, + BC_ERR_IDX_PARSE, BC_ERR_IDX_PARSE, BC_ERR_IDX_PARSE, BC_ERR_IDX_PARSE, + BC_ERR_IDX_PARSE, BC_ERR_IDX_PARSE, BC_ERR_IDX_PARSE, + BC_ERR_IDX_MATH, BC_ERR_IDX_MATH, BC_ERR_IDX_MATH, BC_ERR_IDX_MATH, + BC_ERR_IDX_MATH, BC_ERR_IDX_MATH, + BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, + BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, + BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, BC_ERR_IDX_EXEC, + BC_ERR_IDX_EXEC, + BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, + BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, + BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, BC_ERR_IDX_POSIX, +}; + +const char *bc_err_descs[] = { + NULL, + "memory allocation error", + "I/O error", + "file is not text", + + "bad character", + "string end could not be found", + "comment end could not be found", + "end of file", + + "bad token", + "bad expression", + "bad print statement", + "bad function definition", + "bad assignment: left must be scale, ibase, " + "obase, last, var, or array element", + "no auto variable found", + "function parameter or auto var has the same name as another", + + "negative number", + "non integer number", + "overflow", + "divide by zero", + "negative square root", + "bad number string", + + "could not open file", + "mismatched parameters", + "undefined function", + "file is not executable", + "could not install signal handler", + "bad scale; must be [0, BC_SCALE_MAX]", + "bad ibase; must be [2, 16]", + "bad obase; must be [2, BC_BASE_MAX]", + "string too long: must be [1, BC_STRING_MAX]", + "array too long; must be [1, BC_DIM_MAX]", + "bad read() expression", + "read() call inside of a read() call", + "variable is wrong type", + + "POSIX only allows one character names; the following is bad:", + "POSIX does not allow '#' script comments", + "POSIX does not allow the following keyword:", + "POSIX does not allow a period ('.') as a shortcut for the last result", + "POSIX requires parentheses around return expressions", + "POSIX does not allow intean operators; the following is bad:", + "POSIX does not allow comparison operators outside if or loops", + "POSIX requires exactly one comparison operator per condition", + "POSIX does not allow an empty init expression in a for loop", + "POSIX does not allow an empty condition expression in a for loop", + "POSIX does not allow an empty update expression in a for loop", + "POSIX requires the left brace be on the same line as the function header", +}; + +const char bc_sig_msg[34] = "\ninterrupt (type \"quit\" to exit)\n"; + +const char bc_lang_func_main[7] = "(main)"; +const char bc_lang_func_read[7] = "(read)"; + +const BcLexKeyword bc_lex_keywords[20] = { + BC_LEX_KW_ENTRY("auto", 4, 1), + BC_LEX_KW_ENTRY("break", 5, 1), + BC_LEX_KW_ENTRY("continue", 8, 0), + BC_LEX_KW_ENTRY("define", 6, 1), + BC_LEX_KW_ENTRY("else", 4, 0), + BC_LEX_KW_ENTRY("for", 3, 1), + BC_LEX_KW_ENTRY("halt", 4, 0), + BC_LEX_KW_ENTRY("ibase", 5, 1), + BC_LEX_KW_ENTRY("if", 2, 1), + BC_LEX_KW_ENTRY("last", 4, 0), + BC_LEX_KW_ENTRY("length", 6, 1), + BC_LEX_KW_ENTRY("limits", 6, 0), + BC_LEX_KW_ENTRY("obase", 5, 1), + BC_LEX_KW_ENTRY("print", 5, 0), + BC_LEX_KW_ENTRY("quit", 4, 1), + BC_LEX_KW_ENTRY("read", 4, 0), + BC_LEX_KW_ENTRY("return", 6, 1), + BC_LEX_KW_ENTRY("scale", 5, 1), + BC_LEX_KW_ENTRY("sqrt", 4, 1), + BC_LEX_KW_ENTRY("while", 5, 1), +}; + +const char bc_num_hex_digits[] = "0123456789ABCDEF"; + +// This is an array that corresponds to token types. An entry is +// 1 if the token is valid in an expression, 0 otherwise. +const int bc_parse_token_exprs[] = { + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, + 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 1, 0, + 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 1, + 1, 0, 0, 0, 0, 0, 0, 0, 1, 0, 1, + 1, 1, 1, 0, 0, 1, 0, 1, 1, 0, 0, 0, +}; + +// This is an array of data for operators that correspond to token types. +const BcOp bc_parse_ops[] = { + { 0, 0 }, { 0, 0 }, + { 1, 0 }, + { 2, 0 }, + { 3, 1 }, { 3, 1 }, { 3, 1 }, + { 4, 1 }, { 4, 1 }, + { 6, 1 }, { 6, 1 }, { 6, 1 }, { 6, 1 }, { 6, 1 }, { 6, 1 }, + { 7, 0 }, + { 8, 1 }, { 8, 1 }, + { 5, 0 }, { 5, 0 }, { 5, 0 }, { 5, 0 }, { 5, 0 }, { 5, 0 }, { 5, 0 }, +}; + +const char bc_program_byte_fmt[] = "%02x"; + +const BcNumBinaryFunc bc_program_math_ops[] = { + bc_num_pow, bc_num_mul, bc_num_div, bc_num_mod, bc_num_add, bc_num_sub, +}; + +const char bc_program_stdin_name[] = ""; +const char bc_program_ready_prompt[] = "ready for more input\n"; +const char *bc_lib_name = "lib.bc"; + +const char bc_lib[] = { + 115,99,97,108,101,61,50,48,10,100,101,102,105,110,101,32,101,40,120,41,123, + 10,9,97,117,116,111,32,98,44,115,44,110,44,114,44,100,44,105,44,112,44,102, + 44,118,10,9,98,61,105,98,97,115,101,10,9,105,98,97,115,101,61,65,10,9,105,102, + 40,120,60,48,41,123,10,9,9,110,61,49,10,9,9,120,61,45,120,10,9,125,10,9,115, + 61,115,99,97,108,101,10,9,114,61,115,43,55,43,48,46,52,53,42,120,10,9,115,99, + 97,108,101,61,115,99,97,108,101,40,120,41,43,49,10,9,119,104,105,108,101,40, + 120,62,49,41,123,10,9,9,100,43,61,49,10,9,9,120,47,61,50,10,9,9,115,99,97,108, + 101,43,61,49,10,9,125,10,9,115,99,97,108,101,61,114,10,9,114,61,120,43,49,10, + 9,112,61,120,10,9,102,61,118,61,49,10,9,102,111,114,40,105,61,50,59,118,33, + 61,48,59,43,43,105,41,123,10,9,9,112,42,61,120,59,10,9,9,102,42,61,105,10,9, + 9,118,61,112,47,102,10,9,9,114,43,61,118,10,9,125,10,9,119,104,105,108,101, + 40,40,102,45,45,41,33,61,48,41,114,42,61,114,10,9,115,99,97,108,101,61,115, + 10,9,105,98,97,115,101,61,98,10,9,105,102,40,109,33,61,48,41,114,101,116,117, + 114,110,40,49,47,114,41,10,9,114,101,116,117,114,110,40,114,47,49,41,10,125, + 10,100,101,102,105,110,101,32,108,40,120,41,123,10,9,97,117,116,111,32,98,44, + 115,44,114,44,112,44,97,44,113,44,105,44,118,10,9,98,61,105,98,97,115,101,10, + 9,105,98,97,115,101,61,65,10,9,105,102,40,120,60,61,48,41,123,10,9,9,114,61, + 40,49,45,49,48,94,115,99,97,108,101,41,47,49,10,9,9,105,98,97,115,101,61,98, + 10,9,9,114,101,116,117,114,110,40,114,41,10,9,125,10,9,115,61,115,99,97,108, + 101,10,9,115,99,97,108,101,43,61,55,10,9,112,61,50,10,9,119,104,105,108,101, + 40,120,62,61,50,41,123,10,9,9,112,42,61,50,10,9,9,120,61,115,113,114,116,40, + 120,41,10,9,125,10,9,119,104,105,108,101,40,120,60,61,48,46,53,41,123,10,9, + 9,112,42,61,50,10,9,9,120,61,115,113,114,116,40,120,41,10,9,125,10,9,114,61, + 97,61,40,120,45,49,41,47,40,120,43,49,41,10,9,113,61,97,42,97,10,9,118,61,49, + 10,9,102,111,114,40,105,61,51,59,118,33,61,48,59,105,43,61,50,41,123,10,9,9, + 110,42,61,109,10,9,9,118,61,110,47,105,10,9,9,114,43,61,118,10,9,125,10,9,114, + 42,61,112,10,9,115,99,97,108,101,61,115,10,9,105,98,97,115,101,61,98,10,9,114, + 101,116,117,114,110,40,114,47,49,41,10,125,10,100,101,102,105,110,101,32,115, + 40,120,41,123,10,9,97,117,116,111,32,98,44,115,44,114,44,110,44,97,44,113,44, + 105,10,9,98,61,105,98,97,115,101,10,9,105,98,97,115,101,61,65,10,9,115,61,115, + 99,97,108,101,10,9,115,99,97,108,101,61,49,46,51,42,115,43,50,10,9,97,61,97, + 40,49,41,10,9,105,102,40,120,60,48,41,123,10,9,9,110,61,49,10,9,9,120,61,45, + 120,10,9,125,10,9,115,99,97,108,101,61,48,10,9,113,61,40,120,47,97,43,50,41, + 47,52,10,9,120,45,61,52,42,113,42,97,10,9,105,102,40,113,37,50,33,61,48,41, + 120,61,45,120,10,9,115,99,97,108,101,61,115,43,50,10,9,114,61,97,61,120,10, + 9,113,61,45,120,42,120,10,9,102,111,114,40,105,61,51,59,97,33,61,48,59,105, + 43,61,50,41,123,10,9,9,97,42,61,113,47,40,105,42,40,105,45,49,41,41,10,9,9, + 114,43,61,97,10,9,125,10,9,115,99,97,108,101,61,115,10,9,105,98,97,115,101, + 61,98,10,9,105,102,40,110,33,61,48,41,114,101,116,117,114,110,40,45,114,47, + 49,41,10,9,114,101,116,117,114,110,40,114,47,49,41,10,125,10,100,101,102,105, + 110,101,32,99,40,120,41,123,10,9,97,117,116,111,32,98,44,115,10,9,98,61,105, + 98,97,115,101,10,9,105,98,97,115,101,61,65,10,9,115,61,115,99,97,108,101,10, + 9,115,99,97,108,101,43,61,49,10,9,120,61,115,40,50,42,97,40,49,41,43,120,41, + 10,9,115,99,97,108,101,61,115,10,9,105,98,97,115,101,61,98,10,9,114,101,116, + 117,114,110,40,120,47,49,41,10,125,10,100,101,102,105,110,101,32,97,40,120, + 41,123,10,9,97,117,116,111,32,98,44,115,44,114,44,110,44,97,44,109,44,116,44, + 102,44,105,44,117,10,9,98,61,105,98,97,115,101,10,9,105,98,97,115,101,61,65, + 10,9,110,61,49,10,9,105,102,40,120,60,48,41,123,10,9,9,110,61,45,49,10,9,9, + 120,61,45,120,10,9,125,10,9,105,102,40,120,61,61,49,41,123,10,9,9,105,102,40, + 115,99,97,108,101,60,61,54,52,41,123,10,9,9,9,114,101,116,117,114,110,40,46, + 55,56,53,51,57,56,49,54,51,51,57,55,52,52,56,51,48,57,54,49,53,54,54,48,56, + 52,53,56,49,57,56,55,53,55,50,49,48,52,57,50,57,50,51,52,57,56,52,51,55,55, + 54,52,53,53,50,52,51,55,51,54,49,52,56,48,47,110,41,10,9,9,125,10,9,125,10, + 9,105,102,40,120,61,61,46,50,54,55,41,123,10,9,9,105,102,40,115,99,97,108,101, + 60,61,54,52,41,123,10,9,9,9,114,101,116,117,114,110,40,46,50,54,48,57,49,51, + 53,54,57,50,51,50,57,52,48,53,55,57,53,57,54,55,56,53,50,54,55,55,55,55,57, + 56,54,53,54,51,57,55,55,52,55,52,48,50,51,57,56,56,50,52,52,53,56,50,50,51, + 50,57,56,56,50,57,49,55,47,110,41,10,9,9,125,10,9,125,10,9,115,61,115,99,97, + 108,101,10,9,105,102,40,120,62,46,50,54,55,41,123,10,9,9,115,99,97,108,101, + 43,61,53,10,9,9,97,61,97,40,46,50,54,55,41,10,9,125,10,9,115,99,97,108,101, + 61,115,43,51,10,9,119,104,105,108,101,40,120,62,46,50,54,55,41,123,10,9,9,109, + 43,61,49,10,9,9,120,61,40,120,45,46,50,54,55,41,47,40,49,43,46,50,54,55,42, + 120,41,10,9,125,10,9,114,61,117,61,120,10,9,102,61,45,120,42,120,10,9,116,61, + 49,10,9,102,111,114,40,105,61,51,59,116,33,61,48,59,105,43,61,50,41,123,10, + 9,9,117,42,61,102,10,9,9,116,61,117,47,105,10,9,9,114,43,61,116,10,9,125,10, + 9,115,99,97,108,101,61,115,10,9,105,98,97,115,101,61,98,10,9,114,101,116,117, + 114,110,40,40,109,42,97,43,114,41,47,110,41,10,125,10,100,101,102,105,110,101, + 32,106,40,110,44,120,41,123,10,9,97,117,116,111,32,98,44,115,44,111,44,97,44, + 105,44,118,44,102,10,9,98,61,105,98,97,115,101,10,9,105,98,97,115,101,61,65, + 10,9,115,61,115,99,97,108,101,10,9,115,99,97,108,101,61,48,10,9,110,47,61,49, + 10,9,105,102,40,110,60,48,41,123,10,9,9,110,61,45,110,10,9,9,105,102,40,110, + 37,50,61,61,49,41,111,61,49,10,9,125,10,9,97,61,49,10,9,102,111,114,40,105, + 61,50,59,105,60,61,110,59,43,43,105,41,102,42,61,105,10,9,115,99,97,108,101, + 61,49,46,53,42,115,10,9,97,61,40,120,94,110,41,47,40,50,94,110,42,97,41,10, + 9,114,61,118,61,49,10,9,102,61,45,120,42,120,47,52,10,9,115,99,97,108,101,43, + 61,108,101,110,103,116,104,40,97,41,45,115,99,97,108,101,40,97,41,10,9,102, + 111,114,40,105,61,49,59,118,33,61,48,59,43,43,105,41,123,10,9,9,118,61,118, + 42,115,47,105,47,40,110,43,105,41,10,9,9,114,43,61,118,10,9,125,10,9,115,99, + 97,108,101,61,115,10,9,105,98,97,115,101,61,98,10,9,105,102,40,111,33,61,48, + 41,114,101,116,117,114,110,40,45,97,42,114,47,49,41,10,9,114,101,116,117,114, + 110,40,97,42,114,47,49,41,10,125,10,0 +}; + +BcStatus bc_vec_double(BcVec *vec) { + + uint8_t *ptr = realloc(vec->array, vec->size * (vec->cap * 2)); + if (!ptr) return BC_STATUS_MALLOC_FAIL; + + vec->array = ptr; + vec->cap *= 2; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_vec_init(BcVec *vec, size_t esize, BcVecFreeFunc dtor) { + + vec->size = esize; + vec->cap = BC_VEC_INITIAL_CAP; + vec->len = 0; + vec->dtor = dtor; + + vec->array = malloc(esize * BC_VEC_INITIAL_CAP); + if (!vec->array) return BC_STATUS_MALLOC_FAIL; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_vec_expand(BcVec *vec, size_t request) { + + uint8_t *ptr; + + if (vec->cap >= request) return BC_STATUS_SUCCESS; + + ptr = realloc(vec->array, vec->size * request); + if (!ptr) return BC_STATUS_MALLOC_FAIL; + + vec->array = ptr; + vec->cap = request; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_vec_push(BcVec *vec, void *data) { + + BcStatus status; + size_t size; + + if (vec->len == vec->cap && (status = bc_vec_double(vec))) return status; + + size = vec->size; + memmove(vec->array + (size * vec->len++), data, size); + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_vec_pushByte(BcVec *vec, uint8_t data) { + + BcStatus status; + + if (vec->len == vec->cap && (status = bc_vec_double(vec))) return status; + + vec->array[vec->len++] = data; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_vec_pushAt(BcVec *vec, void *data, size_t idx) { + + BcStatus status; + uint8_t *ptr; + + if (idx == vec->len) return bc_vec_push(vec, data); + if (vec->len == vec->cap && (status = bc_vec_double(vec))) return status; + + ptr = vec->array + vec->size * idx; + + memmove(ptr + vec->size, ptr, vec->size * (vec->len++ - idx)); + memmove(ptr, data, vec->size); + + return BC_STATUS_SUCCESS; +} + +void* bc_vec_top(const BcVec *vec) { + return vec->array + vec->size * (vec->len - 1); +} + +void* bc_vec_item(const BcVec *vec, size_t idx) { + return vec->array + vec->size * idx; +} + +void* bc_vec_item_rev(const BcVec *vec, size_t idx) { + return vec->array + vec->size * (vec->len - idx - 1); +} + +void bc_vec_pop(BcVec *vec) { + vec->len -= 1; + if (vec->dtor) vec->dtor(vec->array + (vec->size * vec->len)); +} + +void bc_vec_npop(BcVec *vec, size_t n) { + if (!vec->dtor) vec->len -= n; + else { + size_t len = vec->len - n; + while (vec->len > len) bc_vec_pop(vec); + } +} + +void bc_vec_free(void *vec) { + + size_t i; + BcVec *s = (BcVec*) vec; + + if (!s) return; + + if (s->dtor) { + for (i = 0; i < s->len; ++i) s->dtor(s->array + (i * s->size)); + } + + free(s->array); + memset(s, 0, sizeof(BcVec)); +} + +size_t bc_veco_find(const BcVecO* vec, void *data) { + + size_t low, high; + + low = 0; + high = vec->vec.len; + + while (low < high) { + + size_t mid = (low + high) / 2; + uint8_t *ptr = bc_vec_item(&vec->vec, mid); + int result = vec->cmp(data, ptr); + + if (!result) return mid; + + if (result < 0) high = mid; + else low = mid + 1; + } + + return low; +} + +BcStatus bc_veco_init(BcVecO* vec, size_t esize, + BcVecFreeFunc dtor, BcVecCmpFunc cmp) +{ + vec->cmp = cmp; + return bc_vec_init(&vec->vec, esize, dtor); +} + +BcStatus bc_veco_insert(BcVecO* vec, void *data, size_t *idx) { + + BcStatus status; + + *idx = bc_veco_find(vec, data); + + if (*idx > vec->vec.len) return BC_STATUS_VEC_OUT_OF_BOUNDS; + if (*idx != vec->vec.len && !vec->cmp(data, bc_vec_item(&vec->vec, *idx))) + return BC_STATUS_VEC_ITEM_EXISTS; + + if (*idx >= vec->vec.len) { + *idx = vec->vec.len; + status = bc_vec_push(&vec->vec, data); + } + else status = bc_vec_pushAt(&vec->vec, data, *idx); + + return status; +} + +size_t bc_veco_index(const BcVecO* v, void *data) { + size_t i; + i = bc_veco_find(v, data); + if (i >= v->vec.len || v->cmp(data, bc_vec_item(&v->vec, i))) return -1; + return i; +} + +BcStatus bc_io_getline(char **buf, size_t *n) { + + char *temp; + int c; + size_t size, i; + + if (TT.tty && fputs(">>> ", stdout) == EOF) return BC_STATUS_IO_ERR; + + for (i = 0, c = 0; c != '\n'; ++i) { + + if (i == *n) { + + size = *n * 2; + + if (size > (1 << 20) || !(temp = realloc(*buf, size + 1))) + return BC_STATUS_MALLOC_FAIL; + + *buf = temp; + *n = size; + } + + if ((c = fgetc(stdin)) == EOF) { + + if (errno == EINTR) { + + TT.sigc = TT.sig; + TT.signe = 0; + --i; + + fprintf(stderr, "%s", bc_program_ready_prompt); + fflush(stderr); + + if (TT.tty && fputs(">>> ", stdout) == EOF) return BC_STATUS_IO_ERR; + + continue; + } + else return BC_STATUS_IO_ERR; + } + else if (!c || (iscntrl(c) && !isspace(c)) || c > SCHAR_MAX) + return BC_STATUS_BINARY_FILE; + + (*buf)[i] = c; + } + + (*buf)[i] = '\0'; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_io_fread(const char *path, char **buf) { + + BcStatus st; + FILE *f; + size_t size, read; + + if (!(f = fopen(path, "r"))) return BC_STATUS_EXEC_FILE_ERR; + + fseek(f, 0, SEEK_END); + size = ftell(f); + fseek(f, 0, SEEK_SET); + + if (!(*buf = malloc(size + 1))) { + st = BC_STATUS_MALLOC_FAIL; + goto malloc_err; + } + + if ((read = fread(*buf, 1, size, f)) != size) { + st = BC_STATUS_IO_ERR; + goto read_err; + } + + (*buf)[size] = '\0'; + fclose(f); + + return BC_STATUS_SUCCESS; + +read_err: + free(*buf); +malloc_err: + fclose(f); + return st; +} + +BcStatus bc_num_subArrays(BcDigit *n1, BcDigit *n2, size_t len) { + size_t i, j; + for (i = 0; !TT.signe && i < len; ++i) { + for (n1[i] -= n2[i], j = 0; !TT.signe && n1[i + j] < 0;) { + n1[i + j++] += 10; + n1[i + j] -= 1; + } + } + return TT.signe ? BC_STATUS_EXEC_SIGNAL : BC_STATUS_SUCCESS; +} + +ssize_t bc_num_compare(BcDigit *n1, BcDigit *n2, size_t len) { + size_t i; + BcDigit c; + for (c = 0, i = len - 1; !TT.signe && !(c = n1[i] - n2[i]) && i < len; --i); + return (c < 0 ? -1 : 1) * (ssize_t) (i + 1); +} + +ssize_t bc_num_cmp(BcNum *a, BcNum *b) { + + size_t i, min, a_int, b_int, diff; + BcDigit *max_num, *min_num; + int a_max; + int cmp, neg; + + if (!a) return !b ? 0 : !b->neg * -2 + 1; + else if (!b) return a->neg * -2 + 1; + + neg = 1; + + if (a->neg) { + if (b->neg) neg = -1; + else return -1; + } + else if (b->neg) return 1; + + if (!a->len) return (!b->neg * -2 + 1) * !!b->len; + else if (!b->len) return a->neg * -2 + 1; + + a_int = a->len - a->rdx; + b_int = b->len - b->rdx; + a_int -= b_int; + + if (a_int) return a_int; + + a_max = a->rdx > b->rdx; + + if (a_max) { + min = b->rdx; + diff = a->rdx - b->rdx; + max_num = a->num + diff; + min_num = b->num; + } + else { + min = a->rdx; + diff = b->rdx - a->rdx; + max_num = b->num + diff; + min_num = a->num; + } + + cmp = bc_num_compare(max_num, min_num, b_int + min); + if (cmp) return cmp * (!a_max * -2 + 1) * neg; + + for (max_num -= diff, i = diff - 1; !TT.signe && i < diff; --i) { + if (max_num[i]) return neg * (!a_max * -2 + 1); + } + + return 0; +} + +void bc_num_truncate(BcNum *n, size_t places) { + + BcDigit *ptr; + + if (!places) return; + + ptr = n->num + places; + n->len -= places; + n->rdx -= places; + + memmove(n->num, ptr, n->len * sizeof(BcDigit)); + memset(n->num + n->len, 0, sizeof(BcDigit) * (n->cap - n->len)); +} + +BcStatus bc_num_extend(BcNum *n, size_t places) { + + BcStatus status; + BcDigit *ptr; + size_t len; + + if (!places) return BC_STATUS_SUCCESS; + + len = n->len + places; + if (n->cap < len && (status = bc_num_expand(n, len))) return status; + + ptr = n->num + places; + memmove(ptr, n->num, sizeof(BcDigit) * n->len); + memset(n->num, 0, sizeof(BcDigit) * places); + + n->len += places; + n->rdx += places; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_inv(BcNum *a, BcNum *b, size_t scale) { + + BcStatus status; + BcNum one; + + if ((status = bc_num_init(&one, BC_NUM_DEF_SIZE))) return status; + + bc_num_one(&one); + status = bc_num_div(&one, a, b, scale); + bc_num_free(&one); + + return status; +} + +BcStatus bc_num_alg_a(BcNum *a, BcNum *b, BcNum *c, size_t scale) { + + BcDigit *ptr, *ptr_a, *ptr_b, *ptr_c; + size_t i, max, min_rdx, min_int, diff, a_int, b_int; + BcDigit carry; + + (void) scale; + + if (!a->len) return bc_num_copy(c, b); + else if (!b->len) return bc_num_copy(c, a); + + c->neg = a->neg; + memset(c->num, 0, c->cap * sizeof(BcDigit)); + + c->rdx = maxof(a->rdx, b->rdx); + min_rdx = minof(a->rdx, b->rdx); + c->len = 0; + + if (a->rdx > b->rdx) { + diff = a->rdx - b->rdx; + ptr = a->num; + ptr_a = a->num + diff; + ptr_b = b->num; + } + else { + diff = b->rdx - a->rdx; + ptr = b->num; + ptr_a = a->num; + ptr_b = b->num + diff; + } + + for (ptr_c = c->num, i = 0; i < diff; ++i, ++c->len) ptr_c[i] = ptr[i]; + + ptr_c += diff; + a_int = a->len - a->rdx; + b_int = b->len - b->rdx; + + if (a_int > b_int) { + min_int = b_int; + max = a_int; + ptr = ptr_a; + } + else { + min_int = a_int; + max = b_int; + ptr = ptr_b; + } + + for (carry = 0, i = 0; !TT.signe && i < min_rdx + min_int; ++i, ++c->len) { + ptr_c[i] = ptr_a[i] + ptr_b[i] + carry; + carry = ptr_c[i] / 10; + ptr_c[i] %= 10; + } + + for (; !TT.signe && i < max + min_rdx; ++i, ++c->len) { + ptr_c[i] += ptr[i] + carry; + carry = ptr_c[i] / 10; + ptr_c[i] %= 10; + } + + if (TT.signe) return BC_STATUS_EXEC_SIGNAL; + + if (carry) c->num[c->len++] = carry; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_alg_s(BcNum *a, BcNum *b, BcNum *c, size_t sub) { + + BcStatus status; + int cmp; + BcNum *minuend, *subtrahend; + size_t start; + int aneg, bneg, neg; + + // Because this function doesn't need to use scale (per the bc spec), + // I am hijacking it to tell this function whether it is doing an add + // or a subtract. + + if (!a->len) { + status = bc_num_copy(c, b); + c->neg = !b->neg; + return status; + } + else if (!b->len) return bc_num_copy(c, a); + + aneg = a->neg; + bneg = b->neg; + a->neg = b->neg = 0; + + cmp = bc_num_cmp(a, b); + + a->neg = aneg; + b->neg = bneg; + + if (!cmp) { + bc_num_zero(c); + return BC_STATUS_SUCCESS; + } + else if (cmp > 0) { + neg = sub && a->neg; + minuend = a; + subtrahend = b; + } + else { + neg = sub && !b->neg; + minuend = b; + subtrahend = a; + } + + if ((status = bc_num_copy(c, minuend))) return status; + c->neg = neg; + + if (c->rdx < subtrahend->rdx) { + if ((status = bc_num_extend(c, subtrahend->rdx - c->rdx))) return status; + start = 0; + } + else start = c->rdx - subtrahend->rdx; + + status = bc_num_subArrays(c->num + start, subtrahend->num, subtrahend->len); + + while (c->len > c->rdx && !c->num[c->len - 1]) --c->len; + + return status; +} + +BcStatus bc_num_alg_m(BcNum *a, BcNum *b, BcNum *c, size_t scale) { + + BcStatus status; + BcDigit carry; + size_t i, j, len; + + if (!a->len || !b->len) { + bc_num_zero(c); + return BC_STATUS_SUCCESS; + } + else if (BC_NUM_ONE(a)) { + status = bc_num_copy(c, b); + if (a->neg) c->neg = !c->neg; + return status; + } + else if (BC_NUM_ONE(b)) { + status = bc_num_copy(c, a); + if (b->neg) c->neg = !c->neg; + return status; + } + + scale = maxof(scale, a->rdx); + scale = maxof(scale, b->rdx); + c->rdx = a->rdx + b->rdx; + + memset(c->num, 0, sizeof(BcDigit) * c->cap); + c->len = carry = len = 0; + + for (i = 0; !TT.signe && i < b->len; ++i) { + + for (j = 0; !TT.signe && j < a->len; ++j) { + c->num[i + j] += a->num[j] * b->num[i] + carry; + carry = c->num[i + j] / 10; + c->num[i + j] %= 10; + } + + if (TT.signe) return BC_STATUS_EXEC_SIGNAL; + + if (carry) { + c->num[i + j] += carry; + carry = 0; + len = maxof(len, i + j + 1); + } + else len = maxof(len, i + j); + } + + if (TT.signe) return BC_STATUS_EXEC_SIGNAL; + + c->len = maxof(len, c->rdx); + c->neg = !a->neg != !b->neg; + + if (scale < c->rdx) bc_num_truncate(c, c->rdx - scale); + while (c->len > c->rdx && !c->num[c->len - 1]) --c->len; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_alg_d(BcNum *a, BcNum *b, BcNum *c, size_t scale) { + + BcStatus status; + BcDigit *ptr, *bptr, q; + size_t len, end, i; + BcNum copy; + int zero; + + if (!b->len) return BC_STATUS_MATH_DIVIDE_BY_ZERO; + else if (!a->len) { + bc_num_zero(c); + return BC_STATUS_SUCCESS; + } + else if (BC_NUM_ONE(b)) { + + if ((status = bc_num_copy(c, a))) return status; + if (b->neg) c->neg = !c->neg; + + if (c->rdx < scale) status = bc_num_extend(c, scale - c->rdx); + else bc_num_truncate(c, c->rdx - scale); + + return status; + } + + if ((status = bc_num_init(©, a->len + b->rdx + scale + 1))) return status; + if ((status = bc_num_copy(©, a))) goto err; + + if ((len = b->len) > copy.len) { + if ((status = bc_num_expand(©, len + 2))) goto err; + if ((status = bc_num_extend(©, len - copy.len))) goto err; + } + + if (b->rdx > copy.rdx && (status = bc_num_extend(©, b->rdx - copy.rdx))) + goto err; + + copy.rdx -= b->rdx; + + if (scale > copy.rdx && (status = bc_num_extend(©, scale - copy.rdx))) + goto err; + + if (b->rdx == b->len) { + int zero; + for (zero = 1, i = 0; zero && i < len; ++i) zero = !b->num[len - i - 1]; + if (i == len) return BC_STATUS_MATH_DIVIDE_BY_ZERO; + len -= i - 1; + } + + if (copy.cap == copy.len && (status = bc_num_expand(©, copy.len + 1))) + goto err; + + // We want an extra zero in front to make things simpler. + copy.num[copy.len++] = 0; + end = copy.len - len; + + if ((status = bc_num_expand(c, copy.len))) goto err; + + bc_num_zero(c); + c->rdx = copy.rdx; + c->len = copy.len; + bptr = b->num; + + for (i = end - 1; !TT.signe && i < end; --i) { + + ptr = copy.num + i; + + q = 0; + for (; (!status && ptr[len]) || bc_num_compare(ptr, bptr, len) >= 0; ++q) + status = bc_num_subArrays(ptr, bptr, len); + + c->num[i] = q; + } + + if (status) goto err; + + c->neg = !a->neg != !b->neg; + while (c->len > c->rdx && !c->num[c->len - 1]) --c->len; + if (c->rdx > scale) bc_num_truncate(c, c->rdx - scale); + + for (i = 0, zero = 1; zero && i < c->len; ++i) zero = !c->num[i]; + if (zero) bc_num_zero(c); + +err: + bc_num_free(©); + return status; +} + +BcStatus bc_num_alg_mod(BcNum *a, BcNum *b, BcNum *c, size_t scale) { + + BcStatus status; + BcNum c1, c2; + size_t len; + + if (!b->len) return BC_STATUS_MATH_DIVIDE_BY_ZERO; + + if (!a->len) { + bc_num_zero(c); + return BC_STATUS_SUCCESS; + } + + len = a->len + b->len + scale; + + if ((status = bc_num_init(&c1, len))) return status; + if ((status = bc_num_init(&c2, len))) goto c2_err; + if ((status = bc_num_div(a, b, &c1, scale))) goto err; + + c->rdx = maxof(scale + b->rdx, a->rdx); + if ((status = bc_num_mul(&c1, b, &c2, scale))) goto err; + status = bc_num_sub(a, &c2, c, scale); + +err: + bc_num_free(&c2); +c2_err: + bc_num_free(&c1); + return status; +} + +BcStatus bc_num_alg_p(BcNum *a, BcNum *b, BcNum *c, size_t scale) { + + BcStatus status; + BcNum copy; + unsigned long pow; + size_t i, powrdx, resrdx; + int neg, zero; + + if (b->rdx) return BC_STATUS_MATH_NON_INTEGER; + + if (!b->len) { + bc_num_one(c); + return BC_STATUS_SUCCESS; + } + else if (!a->len) { + bc_num_zero(c); + return BC_STATUS_SUCCESS; + } + else if (BC_NUM_ONE(b)) { + + if (!b->neg) status = bc_num_copy(c, a); + else status = bc_num_inv(a, c, scale); + + return status; + } + + neg = b->neg; + b->neg = 0; + + if ((status = bc_num_ulong(b, &pow))) return status; + if ((status = bc_num_init(©, a->len))) return status; + if ((status = bc_num_copy(©, a))) goto err; + + if (!neg) scale = minof(a->rdx * pow, maxof(scale, a->rdx)); + + b->neg = neg; + + for (powrdx = a->rdx; !TT.signe && !(pow & 1); pow >>= 1) { + powrdx <<= 1; + if ((status = bc_num_mul(©, ©, ©, powrdx))) goto err; + } + + if ((status = bc_num_copy(c, ©))) goto err; + if (TT.signe) { + status = BC_STATUS_EXEC_SIGNAL; + goto err; + } + + resrdx = powrdx; + + for (pow >>= 1; !TT.signe && pow != 0; pow >>= 1) { + + powrdx <<= 1; + + if ((status = bc_num_mul(©, ©, ©, powrdx))) goto err; + + if (pow & 1) { + resrdx += powrdx; + if ((status = bc_num_mul(c, ©, c, resrdx))) goto err; + } + } + + if (neg && (status = bc_num_inv(c, c, scale))) goto err; + if (TT.signe) { + status = BC_STATUS_EXEC_SIGNAL; + goto err; + } + + if (c->rdx > scale) bc_num_truncate(c, c->rdx - scale); + + for (zero = 1, i = 0; zero && i < c->len; ++i) zero = !c->num[i]; + if (zero) bc_num_zero(c); + +err: + bc_num_free(©); + return status; +} + +BcStatus bc_num_binary(BcNum *a, BcNum *b, BcNum *c, size_t scale, + BcNumBinaryFunc op, size_t req) +{ + BcStatus status; + BcNum num2, *ptr_a, *ptr_b; + int init = 0; + + if (c == a) { + memcpy(&num2, c, sizeof(BcNum)); + ptr_a = &num2; + init = 1; + } + else ptr_a = a; + + if (c == b) { + + if (c == a) { + ptr_b = ptr_a; + } + else { + memcpy(&num2, c, sizeof(BcNum)); + ptr_b = &num2; + init = 1; + } + } + else ptr_b = b; + + if (init) status = bc_num_init(c, req); + else status = bc_num_expand(c, req); + + if (status) goto err; + status = op(ptr_a, ptr_b, c, scale); + +err: + if (c == a || c == b) bc_num_free(&num2); + return status; +} + +int bc_num_strValid(const char *val, size_t base) { + + size_t len, i; + BcDigit c, b; + int small, radix; + + radix = 0; + len = strlen(val); + + if (!len) return 1; + + small = base <= 10; + b = small ? base + '0' : base - 9 + 'A'; + + for (i = 0; i < len; ++i) { + + if ((c = val[i]) == '.') { + + if (radix) return 0; + + radix = 1; + continue; + } + + if (c < '0' || (small && c >= b) || (c > '9' && (c < 'A' || c >= b))) + return 0; + } + + return 1; +} + +BcStatus bc_num_parseDecimal(BcNum *n, const char *val) { + + BcStatus status; + size_t len, i; + const char *ptr; + int zero = 1; + + for (i = 0; val[i] == '0'; ++i); + + val += i; + len = strlen(val); + bc_num_zero(n); + + if (len) { + for (i = 0; zero && i < len; ++i) zero = val[i] == '0' || val[i] == '.'; + if ((status = bc_num_expand(n, len))) return status; + } + + if (zero) { + memset(n->num, 0, sizeof(BcDigit) * n->cap); + n->neg = 0; + return BC_STATUS_SUCCESS; + } + + ptr = strchr(val, '.'); + + // Explicitly test for NULL here to produce either a 0 or 1. + n->rdx = (ptr != NULL) * ((val + len) - (ptr + 1)); + + for (i = len - 1; i < len; ++n->len, i -= 1 + (i && val[i - 1] == '.')) + n->num[n->len] = val[i] - '0'; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_parseBase(BcNum *n, const char *val, BcNum *base) { + + BcStatus status; + BcNum temp, mult, result; + size_t i, len, digits; + BcDigit c; + int zero; + unsigned long v; + + len = strlen(val); + bc_num_zero(n); + + for (zero = 1, i = 0; zero && i < len; ++i) + zero = (val[i] == '.' || val[i] == '0'); + if (zero) return BC_STATUS_SUCCESS; + + if ((status = bc_num_init(&temp, BC_NUM_DEF_SIZE))) return status; + if ((status = bc_num_init(&mult, BC_NUM_DEF_SIZE))) goto mult_err; + + for (i = 0; i < len && (c = val[i]) != '.'; ++i) { + + v = c <= '9' ? c - '0' : c - 'A' + 10; + + if ((status = bc_num_mul(n, base, &mult, 0))) goto int_err; + if ((status = bc_num_ulong2num(&temp, v))) goto int_err; + if ((status = bc_num_add(&mult, &temp, n, 0))) goto int_err; + } + + if (i == len && !(c = val[i])) goto int_err; + if ((status = bc_num_init(&result, base->len))) goto int_err; + + bc_num_zero(&result); + bc_num_one(&mult); + + for (i += 1, digits = 0; i < len && (c = val[i]); ++i, ++digits) { + + v = c <= '9' ? c - '0' : c - 'A' + 10; + + if ((status = bc_num_mul(&result, base, &result, 0))) goto err; + if ((status = bc_num_ulong2num(&temp, v))) goto err; + if ((status = bc_num_add(&result, &temp, &result, 0))) goto err; + if ((status = bc_num_mul(&mult, base, &mult, 0))) goto err; + } + + if ((status = bc_num_div(&result, &mult, &result, digits))) goto err; + if ((status = bc_num_add(n, &result, n, digits))) goto err; + + if (n->len) { + if (n->rdx < digits && n->len) status = bc_num_extend(n, digits - n->rdx); + } + else bc_num_zero(n); + +err: + bc_num_free(&result); +int_err: + bc_num_free(&mult); +mult_err: + bc_num_free(&temp); + return status; +} + +BcStatus bc_num_printDigits(size_t num, size_t width, int radix, + size_t *nchars, size_t line_len) +{ + size_t exp, pow, div; + + if (*nchars == line_len - 1) { + if (putchar('\\') == EOF) return BC_STATUS_IO_ERR; + if (putchar('\n') == EOF) return BC_STATUS_IO_ERR; + *nchars = 0; + } + + if (*nchars || radix) { + if (putchar(radix ? '.' : ' ') == EOF) return BC_STATUS_IO_ERR; + ++(*nchars); + } + + for (exp = 0, pow = 1; exp < width - 1; ++exp, pow *= 10); + + for (exp = 0; exp < width; pow /= 10, ++(*nchars), ++exp) { + + if (*nchars == line_len - 1) { + if (putchar('\\') == EOF) return BC_STATUS_IO_ERR; + if (putchar('\n') == EOF) return BC_STATUS_IO_ERR; + *nchars = 0; + } + + div = num / pow; + num -= div * pow; + + if (putchar(((char) div) + '0') == EOF) return BC_STATUS_IO_ERR; + } + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_printHex(size_t num, size_t width, int radix, + size_t *nchars, size_t line_len) +{ + width += !!radix; + if (*nchars + width >= line_len) { + if (putchar('\\') == EOF) return BC_STATUS_IO_ERR; + if (putchar('\n') == EOF) return BC_STATUS_IO_ERR; + *nchars = 0; + } + + if (radix && putchar('.') == EOF) return BC_STATUS_IO_ERR; + if (putchar(bc_num_hex_digits[num]) == EOF) return BC_STATUS_IO_ERR; + + *nchars = *nchars + width; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_printDecimal(BcNum *n, size_t *nchars, size_t line_len) { + + BcStatus status; + size_t i; + + if (n->neg) { + if (putchar('-') == EOF) return BC_STATUS_IO_ERR; + ++(*nchars); + } + + status = BC_STATUS_SUCCESS; + + for (i = n->len - 1; !status && i < n->len; --i) + status = bc_num_printHex(n->num[i], 1, i == n->rdx - 1, nchars, line_len); + + return status; +} + +BcStatus bc_num_printBase(BcNum *n, BcNum *base, size_t base_t, + size_t *nchars, size_t line_len) +{ + BcStatus status; + BcVec stack; + BcNum intp, fracp, digit, frac_len; + size_t width, i; + BcNumDigitFunc print; + unsigned long dig, *ptr; + int neg, radix; + + neg = n->neg; + n->neg = 0; + + if (neg && putchar('-') == EOF) return BC_STATUS_IO_ERR; + nchars += neg; + + if (base_t <= BC_NUM_MAX_INPUT_BASE) { + width = 1; + print = bc_num_printHex; + } + else { + width = (size_t) floor(log10((double) (base_t - 1)) + 1.0); + print = bc_num_printDigits; + } + + if ((status = bc_vec_init(&stack, sizeof(long), NULL))) return status; + if ((status = bc_num_init(&intp, n->len))) goto int_err; + if ((status = bc_num_init(&fracp, n->rdx))) goto frac_err; + if ((status = bc_num_init(&digit, width))) goto digit_err; + if ((status = bc_num_copy(&intp, n))) goto frac_len_err; + + bc_num_truncate(&intp, intp.rdx); + if ((status = bc_num_sub(n, &intp, &fracp, 0))) goto frac_len_err; + + while (intp.len) { + if ((status = bc_num_mod(&intp, base, &digit, 0))) goto frac_len_err; + if ((status = bc_num_ulong(&digit, &dig))) goto frac_len_err; + if ((status = bc_vec_push(&stack, &dig))) goto frac_len_err; + if ((status = bc_num_div(&intp, base, &intp, 0))) goto frac_len_err; + } + + for (i = 0; i < stack.len; ++i) { + ptr = bc_vec_item_rev(&stack, i); + status = print(*ptr, width, 0, nchars, line_len); + if (status) goto frac_len_err; + } + + if (!n->rdx || (status = bc_num_init(&frac_len, n->len - n->rdx))) + goto frac_len_err; + + bc_num_one(&frac_len); + + for (radix = 1; frac_len.len <= n->rdx; radix = 0) { + if ((status = bc_num_mul(&fracp, base, &fracp, n->rdx))) goto err; + if ((status = bc_num_ulong(&fracp, &dig))) goto err; + if ((status = bc_num_ulong2num(&intp, dig))) goto err; + if ((status = bc_num_sub(&fracp, &intp, &fracp, 0))) goto err; + if ((status = print(dig, width, radix, nchars, line_len))) goto err; + if ((status = bc_num_mul(&frac_len, base, &frac_len, 0))) goto err; + } + +err: + n->neg = neg; + bc_num_free(&frac_len); +frac_len_err: + bc_num_free(&digit); +digit_err: + bc_num_free(&fracp); +frac_err: + bc_num_free(&intp); +int_err: + bc_vec_free(&stack); + return status; +} + +BcStatus bc_num_init(BcNum *n, size_t request) { + + memset(n, 0, sizeof(BcNum)); + + request = request >= BC_NUM_DEF_SIZE ? request : BC_NUM_DEF_SIZE; + if (!(n->num = malloc(request))) return BC_STATUS_MALLOC_FAIL; + + n->cap = request; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_expand(BcNum *n, size_t request) { + + BcDigit *temp; + + if (request <= n->cap) return BC_STATUS_SUCCESS; + if (!(temp = realloc(n->num, request))) return BC_STATUS_MALLOC_FAIL; + + memset(temp + n->cap, 0, sizeof(char) * (request - n->cap)); + n->num = temp; + n->cap = request; + + return BC_STATUS_SUCCESS; +} + +void bc_num_free(void *num) { + BcNum *n = (BcNum*) num; + if (n && n->num) free(n->num); +} + +BcStatus bc_num_copy(BcNum *d, BcNum *s) { + + BcStatus status; + + if (d == s) return BC_STATUS_SUCCESS; + if ((status = bc_num_expand(d, s->cap))) return status; + + d->len = s->len; + d->neg = s->neg; + d->rdx = s->rdx; + + memcpy(d->num, s->num, sizeof(BcDigit) * d->len); + memset(d->num + d->len, 0, sizeof(BcDigit) * (d->cap - d->len)); + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_parse(BcNum *n, const char *val, BcNum *base, size_t base_t) { + + BcStatus status; + + if (!bc_num_strValid(val, base_t)) return BC_STATUS_MATH_BAD_STRING; + + if (base_t == 10) status = bc_num_parseDecimal(n, val); + else status = bc_num_parseBase(n, val, base); + + return status; +} + +BcStatus bc_num_print(BcNum *n, BcNum *base, size_t base_t, int newline, + size_t *nchars, size_t line_len) +{ + BcStatus status; + + if (*nchars >= line_len) { + if (putchar('\\') == EOF) return BC_STATUS_IO_ERR; + if (putchar('\n') == EOF) return BC_STATUS_IO_ERR; + *nchars = 0; + } + + if (!n->len) { + if (putchar('0') == EOF) return BC_STATUS_IO_ERR; + ++(*nchars); + status = BC_STATUS_SUCCESS; + } + else if (base_t == 10) status = bc_num_printDecimal(n, nchars, line_len); + else status = bc_num_printBase(n, base, base_t, nchars, line_len); + + if (status) return status; + + if (newline) { + if (putchar('\n') == EOF) return BC_STATUS_IO_ERR; + *nchars = 0; + } + + return status; +} + +BcStatus bc_num_ulong(BcNum *n, unsigned long *result) { + + size_t i; + unsigned long prev, pow; + + if (n->neg) return BC_STATUS_MATH_NEGATIVE; + + for (*result = 0, pow = 1, i = n->rdx; i < n->len; ++i) { + + prev = *result; + *result += n->num[i] * pow; + pow *= 10; + + if (*result < prev) return BC_STATUS_MATH_OVERFLOW; + } + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_ulong2num(BcNum *n, unsigned long val) { + + BcStatus status; + size_t len, i; + BcDigit *ptr; + + bc_num_zero(n); + + if (!val) { + memset(n->num, 0, sizeof(char) * n->cap); + return BC_STATUS_SUCCESS; + } + + len = (size_t) ceil(log10(((double) ULONG_MAX) + 1.0f)); + + if ((status = bc_num_expand(n, len))) return status; + + for (ptr = n->num, i = 0; val; ++i, ++n->len) { + ptr[i] = (char) (val % 10); + val /= 10; + } + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_num_add(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + (void) scale; + BcNumBinaryFunc op = (!a->neg == !b->neg) ? bc_num_alg_a : bc_num_alg_s; + return bc_num_binary(a, b, result, 0, op, a->len + b->len + 1); +} + +BcStatus bc_num_sub(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + (void) scale; + BcNumBinaryFunc op = (!a->neg == !b->neg) ? bc_num_alg_s : bc_num_alg_a; + return bc_num_binary(a, b, result, 1, op, a->len + b->len + 1); +} + +BcStatus bc_num_mul(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + return bc_num_binary(a, b, result, scale, bc_num_alg_m, + a->len + b->len + scale + 1); +} + +BcStatus bc_num_div(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + return bc_num_binary(a, b, result, scale, bc_num_alg_d, + a->len + b->len + scale + 1); +} + +BcStatus bc_num_mod(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + return bc_num_binary(a, b, result, scale, bc_num_alg_mod, + a->len + b->len + scale + 1); +} + +BcStatus bc_num_pow(BcNum *a, BcNum *b, BcNum *result, size_t scale) { + return bc_num_binary(a, b, result, scale, bc_num_alg_p, + (a->len + 1) * (b->len + 1)); +} + +BcStatus bc_num_sqrt(BcNum *a, BcNum *result, size_t scale) { + + BcStatus status; + BcNum a2, *ptr_a, num1, num2, two, f, fprime, *x0, *x1, *temp; + size_t pow, len, digits, resrdx, req; + int cmp; + + req = a->rdx + (a->len - a->rdx) * 2 + 1; + + if (result == a) { + memcpy(&a2, result, sizeof(BcNum)); + ptr_a = &a2; + status = bc_num_init(result, req); + } + else { + ptr_a = a; + status = bc_num_expand(result, req); + } + + if (status) goto init_err; + + if (!ptr_a->len) { + bc_num_zero(result); + return BC_STATUS_SUCCESS; + } + else if (ptr_a->neg) return BC_STATUS_MATH_NEG_SQRT; + else if (BC_NUM_ONE(a)) { + bc_num_one(result); + return bc_num_extend(result, scale); + } + + memset(result->num, 0, result->cap * sizeof(BcDigit)); + len = ptr_a->len; + + scale = maxof(scale, ptr_a->rdx) + 1; + + if ((status = bc_num_init(&num1, len))) return status; + if ((status = bc_num_init(&num2, num1.len))) goto num2_err; + if ((status = bc_num_init(&two, BC_NUM_DEF_SIZE))) goto two_err; + + bc_num_one(&two); + two.num[0] = 2; + + len += scale; + + if ((status = bc_num_init(&f, len))) goto f_err; + if ((status = bc_num_init(&fprime, len + scale))) goto fprime_err; + + x0 = &num1; + x1 = &num2; + + bc_num_one(x0); + + pow = ptr_a->len - ptr_a->rdx; + + if (pow) { + + if (pow & 1) { + x0->num[0] = 2; + pow -= 1; + } + else { + x0->num[0] = 6; + pow -= 2; + } + + if ((status = bc_num_extend(x0, pow))) goto err; + } + + cmp = 1; + x0->rdx = digits = 0; + resrdx = scale + 1; + len = (x0->len - x0->rdx) + resrdx; + + while (!TT.signe && cmp && digits <= len) { + + if ((status = bc_num_mul(x0, x0, &f, resrdx))) goto err; + if ((status = bc_num_sub(&f, a, &f, resrdx))) goto err; + if ((status = bc_num_mul(x0, &two, &fprime, resrdx))) goto err; + if ((status = bc_num_div(&f, &fprime, &f, resrdx))) goto err; + if ((status = bc_num_sub(x0, &f, x1, resrdx))) goto err; + + cmp = bc_num_cmp(x1, x0); + digits = x1->len - llabs(cmp); + + temp = x0; + x0 = x1; + x1 = temp; + } + + if (TT.signe) { + status = BC_STATUS_EXEC_SIGNAL; + goto err; + } + + if ((status = bc_num_copy(result, x0))) goto err; + + if (result->rdx > --scale) bc_num_truncate(result, result->rdx - scale); + else if (result->rdx < scale) + status = bc_num_extend(result, scale - result->rdx); + +err: + bc_num_free(&fprime); +fprime_err: + bc_num_free(&f); +f_err: + bc_num_free(&two); +two_err: + bc_num_free(&num2); +num2_err: + bc_num_free(&num1); +init_err: + if (result == a) bc_num_free(&a2); + return status; +} + +void bc_num_zero(BcNum *n) { + if (!n) return; + memset(n->num, 0, n->cap * sizeof(char)); + n->neg = 0; + n->len = 0; + n->rdx = 0; +} + +void bc_num_one(BcNum *n) { + if (!n) return; + bc_num_zero(n); + n->len = 1; + n->num[0] = 1; +} + +void bc_num_ten(BcNum *n) { + if (!n) return; + bc_num_zero(n); + n->len = 2; + n->num[0] = 0; + n->num[1] = 1; +} + +BcStatus bc_func_insert(BcFunc *f, char *name, int var) { + + BcAuto a; + size_t i; + + for (i = 0; i < f->autos.len; ++i) { + if (!strcmp(name, ((BcAuto*) bc_vec_item(&f->autos, i))->name)) + return BC_STATUS_PARSE_DUPLICATE_LOCAL; + } + + a.var = var; + a.name = name; + + return bc_vec_push(&f->autos, &a); +} + +BcStatus bc_func_init(BcFunc *f) { + + BcStatus status; + + if ((status = bc_vec_init(&f->code, sizeof(uint8_t), NULL))) return status; + if ((status = bc_vec_init(&f->autos, sizeof(BcAuto), bc_auto_free))) goto err; + if ((status = bc_vec_init(&f->labels, sizeof(size_t), NULL))) goto label_err; + + f->nparams = 0; + + return BC_STATUS_SUCCESS; + +label_err: + bc_vec_free(&f->autos); +err: + bc_vec_free(&f->code); + return status; +} + +void bc_func_free(void *func) { + + BcFunc *f = (BcFunc*) func; + + if (!f) return; + + bc_vec_free(&f->code); + bc_vec_free(&f->autos); + bc_vec_free(&f->labels); +} + +BcStatus bc_array_copy(BcVec *d, BcVec *s) { + + BcStatus status; + size_t i; + BcNum *dnum, *snum; + + bc_vec_npop(d, d->len); + + if ((status = bc_vec_expand(d, s->cap))) return status; + + d->len = s->len; + + for (i = 0; !status && i < s->len; ++i) { + + dnum = bc_vec_item(d, i); + snum = bc_vec_item(s, i); + + if ((status = bc_num_init(dnum, snum->len))) return status; + if ((status = bc_num_copy(dnum, snum))) bc_num_free(dnum); + } + + return status; +} + +BcStatus bc_array_expand(BcVec *a, size_t len) { + + BcStatus status = BC_STATUS_SUCCESS; + BcNum num; + + while (!status && len > a->len) { + if ((status = bc_num_init(&num, BC_NUM_DEF_SIZE))) return status; + bc_num_zero(&num); + if ((status = bc_vec_push(a, &num))) bc_num_free(&num); + } + + return status; +} + +void bc_string_free(void *string) { + char **s = string; + if (s) free(*s); +} + +int bc_entry_cmp(void *entry1, void *entry2) { + return strcmp(((BcEntry*) entry1)->name, ((BcEntry*) entry2)->name); +} + +void bc_entry_free(void *entry) { + BcEntry *e = entry; + if (e) free(e->name); +} + +void bc_auto_free(void *auto1) { + BcAuto *a = (BcAuto*) auto1; + if (a && a->name) free(a->name); +} + +void bc_result_free(void *result) { + + BcResult *r = (BcResult*) result; + + if (!r) return; + + switch (r->type) { + + case BC_RESULT_TEMP: + case BC_RESULT_SCALE: + case BC_RESULT_VAR_AUTO: + { + bc_num_free(&r->data.num); + break; + } + + case BC_RESULT_ARRAY_AUTO: + { + bc_vec_free(&r->data.array); + break; + } + + case BC_RESULT_VAR: + case BC_RESULT_ARRAY: + { + if (r->data.id.name) free(r->data.id.name); + break; + } + + default: + { + // Do nothing. + break; + } + } +} + +BcStatus bc_lex_string(BcLex *lex) { + + const char *start; + size_t newlines, len, i, j; + char c; + + newlines = 0; + lex->token.type = BC_LEX_STRING; + i = lex->idx; + + for (c = lex->buffer[i]; c != '"' && c != '\0'; c = lex->buffer[++i]) { + if (c == '\n') ++newlines; + } + + if (c == '\0') { + lex->idx = i; + return BC_STATUS_LEX_NO_STRING_END; + } + + len = i - lex->idx; + if (!(lex->token.string = malloc(len + 1))) return BC_STATUS_MALLOC_FAIL; + + start = lex->buffer + lex->idx; + + for (j = 0; j < len; ++j) lex->token.string[j] = start[j]; + + lex->token.string[len] = '\0'; + lex->idx = i + 1; + lex->line += newlines; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_lex_comment(BcLex *lex) { + + size_t newlines, i; + const char *buffer; + char c; + int end; + + newlines = 0; + lex->token.type = BC_LEX_WHITESPACE; + end = 0; + + buffer = lex->buffer; + + for (i = ++lex->idx; !end; i += !end) { + + while ((c = buffer[i]) != '*' && c != '\0') { + if (c == '\n') ++newlines; + c = buffer[++i]; + } + + if (c == '\0' || buffer[i + 1] == '\0') { + lex->idx = i; + return BC_STATUS_LEX_NO_COMMENT_END; + } + + end = buffer[i + 1] == '/'; + } + + lex->idx = i + 2; + lex->line += newlines; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_lex_number(BcLex *lex, char start) { + + const char *buffer, *buf; + size_t backslashes, len, hits, i, j; + char c; + int point; + + lex->token.type = BC_LEX_NUMBER; + point = start == '.'; + buffer = lex->buffer + lex->idx; + backslashes = 0; + i = 0; + c = buffer[i]; + + while (c && ((c >= '0' && c <= '9') || (c >= 'A' && c <= 'F') || + (c == '.' && !point) || (c == '\\' && buffer[i + 1] == '\n'))) + { + if (c == '\\') { + ++i; + backslashes += 1; + } + + c = buffer[++i]; + } + + len = i + 1 * (*(buffer + i - 1) != '.'); + + lex->token.string = malloc(len - backslashes * 2 + 1); + if (!lex->token.string) return BC_STATUS_MALLOC_FAIL; + + lex->token.string[0] = start; + buf = buffer - 1; + hits = 0; + + for (j = 1; j < len; ++j) { + + c = buf[j]; + + // If we have hit a backslash, skip it. + // We don't have to check for a newline + // because it's guaranteed. + if (hits < backslashes && c == '\\') { + ++hits; + ++j; + continue; + } + + lex->token.string[j - (hits * 2)] = c; + } + + lex->token.string[j - (hits * 2)] = '\0'; + lex->idx += i; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_lex_name(BcLex *lex) { + + BcStatus status; + const char *buffer; + size_t i; + char c; + + buffer = lex->buffer + lex->idx - 1; + + for (i = 0; i < sizeof(bc_lex_keywords) / sizeof(bc_lex_keywords[0]); ++i) { + + if (!strncmp(buffer, bc_lex_keywords[i].name, bc_lex_keywords[i].len)) { + + lex->token.type = BC_LEX_KEY_AUTO + i; + + if (!bc_lex_keywords[i].posix && + (status = bc_posix_error(BC_STATUS_POSIX_BAD_KEYWORD, lex->file, + lex->line, bc_lex_keywords[i].name))) + { + return status; + } + + // We need to minus one because the + // index has already been incremented. + lex->idx += bc_lex_keywords[i].len - 1; + + return BC_STATUS_SUCCESS; + } + } + + lex->token.type = BC_LEX_NAME; + + i = 0; + c = buffer[i]; + + while ((c >= 'a' && c<= 'z') || (c >= '0' && c <= '9') || c == '_') + c = buffer[++i]; + + if (i > 1 && (status = bc_posix_error(BC_STATUS_POSIX_NAME_LEN, + lex->file, lex->line, buffer))) + { + return status; + } + + if (!(lex->token.string = malloc(i + 1))) return BC_STATUS_MALLOC_FAIL; + + strncpy(lex->token.string, buffer, i); + lex->token.string[i] = '\0'; + + // Increment the index. It is minus one + // because it has already been incremented. + lex->idx += i - 1; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_lex_token(BcLex *lex) { + + BcStatus status = BC_STATUS_SUCCESS; + char c, c2; + + // This is the workhorse of the lexer. + switch ((c = lex->buffer[lex->idx++])) { + + case '\0': + case '\n': + { + lex->newline = 1; + lex->token.type = BC_LEX_NEWLINE + (!c) * (BC_LEX_EOF - BC_LEX_NEWLINE); + break; + } + + case '\t': + case '\v': + case '\f': + case '\r': + case ' ': + case '\\': + { + lex->token.type = BC_LEX_WHITESPACE; + c = lex->buffer[lex->idx]; + + while ((isspace(c) && c != '\n') || c == '\\') + c = lex->buffer[++lex->idx]; + + break; + } + + case '!': + { + c2 = lex->buffer[lex->idx]; + + if (c2 == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_REL_NOT_EQ; + } + else { + + if ((status = bc_posix_error(BC_STATUS_POSIX_BOOL_OPS, + lex->file, lex->line, "!"))) + { + return status; + } + + lex->token.type = BC_LEX_OP_BOOL_NOT; + } + + break; + } + + case '"': + { + status = bc_lex_string(lex); + break; + } + + case '#': + { + if ((status = bc_posix_error(BC_STATUS_POSIX_SCRIPT_COMMENT, + lex->file, lex->line, NULL))) + { + return status; + } + + lex->token.type = BC_LEX_WHITESPACE; + while (++lex->idx < lex->len && lex->buffer[lex->idx] != '\n'); + + break; + } + + case '%': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_MODULUS; + } + else lex->token.type = BC_LEX_OP_MODULUS; + break; + } + + case '&': + { + if ((c2 = lex->buffer[lex->idx]) == '&') { + + if ((status = bc_posix_error(BC_STATUS_POSIX_BOOL_OPS, + lex->file, lex->line, "&&"))) + { + return status; + } + + ++lex->idx; + lex->token.type = BC_LEX_OP_BOOL_AND; + } + else { + lex->token.type = BC_LEX_INVALID; + status = BC_STATUS_LEX_BAD_CHARACTER; + } + + break; + } + + case '(': + case ')': + { + lex->token.type = c - '(' + BC_LEX_LEFT_PAREN; + break; + } + + case '*': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_MULTIPLY; + } + else lex->token.type = BC_LEX_OP_MULTIPLY; + break; + } + + case '+': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_PLUS; + } + else if (c2 == '+') { + ++lex->idx; + lex->token.type = BC_LEX_OP_INC; + } + else lex->token.type = BC_LEX_OP_PLUS; + break; + } + + case ',': + { + lex->token.type = BC_LEX_COMMA; + break; + } + + case '-': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_MINUS; + } + else if (c2 == '-') { + ++lex->idx; + lex->token.type = BC_LEX_OP_DEC; + } + else lex->token.type = BC_LEX_OP_MINUS; + break; + } + + case '.': + { + c2 = lex->buffer[lex->idx]; + if (isdigit(c2)) status = bc_lex_number(lex, c); + else { + status = bc_posix_error(BC_STATUS_POSIX_DOT_LAST, + lex->file, lex->line, NULL); + lex->token.type = BC_LEX_KEY_LAST; + } + break; + } + + case '/': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_DIVIDE; + } + else if (c2 == '*') status = bc_lex_comment(lex); + else lex->token.type = BC_LEX_OP_DIVIDE; + break; + } + + case '0': + case '1': + case '2': + case '3': + case '4': + case '5': + case '6': + case '7': + case '8': + case '9': + { + status = bc_lex_number(lex, c); + break; + } + + case ';': + { + lex->token.type = BC_LEX_SEMICOLON; + break; + } + + case '<': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_REL_LESS_EQ; + } + else lex->token.type = BC_LEX_OP_REL_LESS; + break; + } + + case '=': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_REL_EQUAL; + } + else lex->token.type = BC_LEX_OP_ASSIGN; + break; + } + + case '>': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_REL_GREATER_EQ; + } + else lex->token.type = BC_LEX_OP_REL_GREATER; + break; + } + + case 'A': + case 'B': + case 'C': + case 'D': + case 'E': + case 'F': + { + status = bc_lex_number(lex, c); + break; + } + + case '[': + case ']': + { + lex->token.type = c - '[' + BC_LEX_LEFT_BRACKET; + break; + } + + case '^': + { + if ((c2 = lex->buffer[lex->idx]) == '=') { + ++lex->idx; + lex->token.type = BC_LEX_OP_ASSIGN_POWER; + } + else lex->token.type = BC_LEX_OP_POWER; + break; + } + + case 'a': + case 'b': + case 'c': + case 'd': + case 'e': + case 'f': + case 'g': + case 'h': + case 'i': + case 'j': + case 'k': + case 'l': + case 'm': + case 'n': + case 'o': + case 'p': + case 'q': + case 'r': + case 's': + case 't': + case 'u': + case 'v': + case 'w': + case 'x': + case 'y': + case 'z': + { + status = bc_lex_name(lex); + break; + } + + case '{': + case '}': + { + lex->token.type = c - '{' + BC_LEX_LEFT_BRACE; + break; + } + + case '|': + { + if ((c2 = lex->buffer[lex->idx]) == '|') { + + if ((status = bc_posix_error(BC_STATUS_POSIX_BOOL_OPS, + lex->file, lex->line, "||"))) + { + return status; + } + + ++lex->idx; + lex->token.type = BC_LEX_OP_BOOL_OR; + } + else { + lex->token.type = BC_LEX_INVALID; + status = BC_STATUS_LEX_BAD_CHARACTER; + } + + break; + } + + default: + { + lex->token.type = BC_LEX_INVALID; + status = BC_STATUS_LEX_BAD_CHARACTER; + break; + } + } + + return status; +} + +void bc_lex_init(BcLex *lex, const char *file) { + lex->line = 1; + lex->newline = 0; + lex->file = file; +} + +BcStatus bc_lex_next(BcLex *lex) { + + BcStatus status; + + if (lex->token.type == BC_LEX_EOF) return BC_STATUS_LEX_EOF; + + if (lex->idx == lex->len) { + lex->newline = 1; + lex->token.type = BC_LEX_EOF; + return BC_STATUS_SUCCESS; + } + + if (lex->newline) { + ++lex->line; + lex->newline = 0; + } + + // Loop until failure or we don't have whitespace. This + // is so the parser doesn't get inundated with whitespace. + do { + lex->token.string = NULL; + status = bc_lex_token(lex); + } while (!status && lex->token.type == BC_LEX_WHITESPACE); + + return status; +} + +BcStatus bc_lex_text(BcLex *lex, const char *text) { + lex->buffer = text; + lex->idx = 0; + lex->len = strlen(text); + lex->token.type = BC_LEX_INVALID; + return bc_lex_next(lex); +} + +BcStatus bc_parse_else(BcParse *p, BcVec *code); +BcStatus bc_parse_stmt(BcParse *p, BcVec *code); + +BcStatus bc_parse_pushName(BcVec *code, char *name) { + + BcStatus status; + size_t len, i; + + status = BC_STATUS_SUCCESS; + len = strlen(name); + + for (i = 0; !status && i < len; ++i) + status = bc_vec_pushByte(code, (uint8_t) name[i]); + + if (status) return status; + + free(name); + + return bc_vec_pushByte(code, (uint8_t) ':'); +} + +BcStatus bc_parse_pushIndex(BcVec *code, size_t idx) { + + BcStatus status; + uint8_t amt, i, nums[sizeof(size_t)]; + + for (amt = 0; idx; ++amt) { + nums[amt] = (uint8_t) idx; + idx = (idx & ~(UINT8_MAX)) >> sizeof(uint8_t) * CHAR_BIT; + } + + if ((status = bc_vec_pushByte(code, amt))) return status; + for (i = 0; !status && i < amt; ++i) status = bc_vec_pushByte(code, nums[i]); + + return status; +} + +BcStatus bc_parse_operator(BcParse *p, BcVec *code, BcVec *ops, BcLexToken t, + uint32_t *num_exprs, int next) +{ + BcStatus status; + BcLexToken top; + uint8_t lp, rp; + int rleft; + + rp = bc_parse_ops[t].prec; + rleft = bc_parse_ops[t].left; + + while (ops->len && + (top = *((BcLexToken*) bc_vec_top(ops))) != BC_LEX_LEFT_PAREN && + ((lp = bc_parse_ops[top].prec) < rp || (lp == rp && rleft))) + { + status = bc_vec_pushByte(code, BC_PARSE_TOKEN_TO_INST(top)); + if (status) return status; + + bc_vec_pop(ops); + + *num_exprs -= top != BC_LEX_OP_BOOL_NOT && top != BC_LEX_OP_NEG; + } + + if ((status = bc_vec_push(ops, &t))) return status; + if (next && (status = bc_lex_next(&p->lex)) && p->lex.token.string) { + free(p->lex.token.string); + p->lex.token.string = NULL; + } + + return status; +} + +BcStatus bc_parse_rightParen(BcParse *p, BcVec *code, + BcVec *ops, uint32_t *nexs) +{ + BcStatus status; + BcLexToken top; + + if (!ops->len) return BC_STATUS_PARSE_BAD_EXPR; + + while ((top = *((BcLexToken*) bc_vec_top(ops))) != BC_LEX_LEFT_PAREN) { + + status = bc_vec_pushByte(code, BC_PARSE_TOKEN_TO_INST(top)); + if (status) return status; + + bc_vec_pop(ops); + *nexs -= top != BC_LEX_OP_BOOL_NOT && top != BC_LEX_OP_NEG; + + if (!ops->len) return BC_STATUS_PARSE_BAD_EXPR; + } + + bc_vec_pop(ops); + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_params(BcParse *p, BcVec *code, uint8_t flags) { + + BcStatus status; + int comma = 0; + size_t nparams; + + if ((status = bc_lex_next(&p->lex))) return status; + + for (nparams = 0; p->lex.token.type != BC_LEX_RIGHT_PAREN; ++nparams) { + + status = bc_parse_expr(p, code, flags & ~(BC_PARSE_EXPR_PRINT)); + if (status) return status; + + if (p->lex.token.type == BC_LEX_COMMA) { + comma = 1; + if ((status = bc_lex_next(&p->lex))) return status; + } + else comma = 0; + } + + if (comma) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_vec_pushByte(code, BC_INST_CALL))) return status; + + return bc_parse_pushIndex(code, nparams); +} + +BcStatus bc_parse_call(BcParse *p, BcVec *code, char *name, uint8_t flags) { + + BcStatus status; + BcEntry entry, *entry_ptr; + size_t idx; + + entry.name = name; + + if ((status = bc_parse_params(p, code, flags))) goto err; + + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) { + status = BC_STATUS_PARSE_BAD_TOKEN; + goto err; + } + + idx = bc_veco_index(&p->prog->func_map, &entry); + + if (idx == -1) { + if ((status = bc_program_addFunc(p->prog, name, &idx))) return status; + name = NULL; + } + else free(name); + + entry_ptr = bc_veco_item(&p->prog->func_map, idx); + if ((status = bc_parse_pushIndex(code, entry_ptr->idx))) return status; + + return bc_lex_next(&p->lex); + +err: + if (name) free(name); + return status; +} + +BcStatus bc_parse_name(BcParse *p, BcVec *code, BcInst *type, uint8_t flags) +{ + BcStatus status; + char *name; + + name = p->lex.token.string; + + if ((status = bc_lex_next(&p->lex))) goto err; + + if (p->lex.token.type == BC_LEX_LEFT_BRACKET) { + + *type = BC_INST_PUSH_ARRAY_ELEM; + + if ((status = bc_lex_next(&p->lex))) goto err; + if ((status = bc_parse_expr(p, code, flags))) goto err; + + if (p->lex.token.type != BC_LEX_RIGHT_BRACKET) { + status = BC_STATUS_PARSE_BAD_TOKEN; + goto err; + } + + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_ARRAY_ELEM))) goto err; + + status = bc_parse_pushName(code, name); + } + else if (p->lex.token.type == BC_LEX_LEFT_PAREN) { + + if (flags & BC_PARSE_EXPR_NOCALL) { + status = BC_STATUS_PARSE_BAD_TOKEN; + goto err; + } + + *type = BC_INST_CALL; + status = bc_parse_call(p, code, name, flags); + } + else { + *type = BC_INST_PUSH_VAR; + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_VAR))) goto err; + status = bc_parse_pushName(code, name); + } + + return status; + +err: + free(name); + return status; +} + +BcStatus bc_parse_read(BcParse *p, BcVec *code) { + + BcStatus status; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_vec_pushByte(code, BC_INST_READ))) return status; + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_builtin(BcParse *p, BcVec *code, + BcLexToken type, uint8_t flags) +{ + BcStatus status; + uint8_t inst; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + + status = bc_parse_expr(p, code, flags & ~(BC_PARSE_EXPR_PRINT)); + if (status) return status; + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + inst = type == BC_LEX_KEY_LENGTH ? BC_INST_LENGTH : BC_INST_SQRT; + if ((status = bc_vec_pushByte(code, inst))) return status; + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_scale(BcParse *p, BcVec *code, BcInst *type, uint8_t flags) { + + BcStatus status; + + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type != BC_LEX_LEFT_PAREN) { + *type = BC_INST_PUSH_SCALE; + return bc_vec_pushByte(code, BC_INST_PUSH_SCALE); + } + + *type = BC_INST_SCALE_FUNC; + + if ((status = bc_lex_next(&p->lex))) return status; + if ((status = bc_parse_expr(p, code, flags))) return status; + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_vec_pushByte(code, BC_INST_SCALE_FUNC))) return status; + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_incdec(BcParse *p, BcVec *code, BcInst *prev, + uint32_t *nexprs, uint8_t flags) +{ + BcStatus status; + BcLexToken type; + BcInst etype; + uint8_t inst; + + etype = *prev; + + if (etype == BC_INST_PUSH_VAR || etype == BC_INST_PUSH_ARRAY_ELEM || + etype == BC_INST_PUSH_SCALE || etype == BC_INST_PUSH_LAST || + etype == BC_INST_PUSH_IBASE || etype == BC_INST_PUSH_OBASE) + { + *prev = inst = BC_INST_INC_POST + (p->lex.token.type != BC_LEX_OP_INC); + if ((status = bc_vec_pushByte(code, inst))) return status; + status = bc_lex_next(&p->lex); + } + else { + + *prev = inst = BC_INST_INC_PRE + (p->lex.token.type != BC_LEX_OP_INC); + + if ((status = bc_lex_next(&p->lex))) return status; + type = p->lex.token.type; + + // Because we parse the next part of the expression + // right here, we need to increment this. + *nexprs = *nexprs + 1; + + switch (type) { + + case BC_LEX_NAME: + { + status = bc_parse_name(p, code, prev, flags | BC_PARSE_EXPR_NOCALL); + break; + } + + case BC_LEX_KEY_IBASE: + { + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_IBASE))) return status; + status = bc_lex_next(&p->lex); + break; + } + + case BC_LEX_KEY_LAST: + { + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_LAST))) return status; + status = bc_lex_next(&p->lex); + break; + } + + case BC_LEX_KEY_OBASE: + { + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_OBASE))) return status; + status = bc_lex_next(&p->lex); + break; + } + + case BC_LEX_KEY_SCALE: + { + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type == BC_LEX_LEFT_PAREN) + return BC_STATUS_PARSE_BAD_TOKEN; + + status = bc_vec_pushByte(code, BC_INST_PUSH_SCALE); + + break; + } + + default: + { + return BC_STATUS_PARSE_BAD_TOKEN; + } + } + + if (status) return status; + status = bc_vec_pushByte(code, inst); + } + + return status; +} + +BcStatus bc_parse_minus(BcParse *p, BcVec *exs, BcVec *ops, BcInst *prev, + int rparen, uint32_t *nexprs) +{ + BcStatus status; + BcLexToken type; + BcInst etype; + + if ((status = bc_lex_next(&p->lex))) return status; + + etype = *prev; + type = p->lex.token.type; + + if (type != BC_LEX_NAME && type != BC_LEX_NUMBER && + type != BC_LEX_KEY_SCALE && type != BC_LEX_KEY_LAST && + type != BC_LEX_KEY_IBASE && type != BC_LEX_KEY_OBASE && + type != BC_LEX_LEFT_PAREN && type != BC_LEX_OP_MINUS && + type != BC_LEX_OP_INC && type != BC_LEX_OP_DEC && + type != BC_LEX_OP_BOOL_NOT) + { + return BC_STATUS_PARSE_BAD_TOKEN; + } + + type = rparen || etype == BC_INST_INC_POST || etype == BC_INST_DEC_POST || + (etype >= BC_INST_PUSH_NUM && etype <= BC_INST_SQRT) ? + BC_LEX_OP_MINUS : BC_LEX_OP_NEG; + *prev = BC_PARSE_TOKEN_TO_INST(type); + + if (type == BC_LEX_OP_MINUS) + status = bc_parse_operator(p, exs, ops, type, nexprs, 0); + else + // We can just push onto the op stack because this is the largest + // precedence operator that gets pushed. Inc/dec does not. + status = bc_vec_push(ops, &type); + + return status; +} + +BcStatus bc_parse_string(BcParse *p, BcVec *code) { + + BcStatus status; + size_t len; + + if (strlen(p->lex.token.string) > (unsigned long) maxof_STRING) { + status = BC_STATUS_EXEC_STRING_LEN; + goto err; + } + + len = p->prog->strings.len; + + if ((status = bc_vec_push(&p->prog->strings, &p->lex.token.string))) goto err; + if ((status = bc_vec_pushByte(code, BC_INST_STR))) return status; + if ((status = bc_parse_pushIndex(code, len))) return status; + + return bc_lex_next(&p->lex); + +err: + free(p->lex.token.string); + return status; +} + +BcStatus bc_parse_print(BcParse *p, BcVec *code) { + + BcStatus status; + BcLexToken type; + int comma; + + if ((status = bc_lex_next(&p->lex))) return status; + + type = p->lex.token.type; + + if (type == BC_LEX_SEMICOLON || type == BC_LEX_NEWLINE) + return BC_STATUS_PARSE_BAD_PRINT; + + comma = 0; + + while (!status && type != BC_LEX_SEMICOLON && type != BC_LEX_NEWLINE) { + + if (type == BC_LEX_STRING) { + + size_t len = p->prog->strings.len; + + status = bc_vec_push(&p->prog->strings, &p->lex.token.string); + if (status) { + free(p->lex.token.string); + return status; + } + + if ((status = bc_vec_pushByte(code, BC_INST_PRINT_STR))) return status; + status = bc_parse_pushIndex(code, len); + } + else { + if ((status = bc_parse_expr(p, code, 0))) return status; + status = bc_vec_pushByte(code, BC_INST_PRINT_EXPR); + } + + if (status) return status; + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type == BC_LEX_COMMA) { + comma = 1; + status = bc_lex_next(&p->lex); + } + else comma = 0; + + type = p->lex.token.type; + } + + if (status) return status; + if (comma) return BC_STATUS_PARSE_BAD_TOKEN; + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_return(BcParse *p, BcVec *code) { + + BcStatus status; + + if (!BC_PARSE_FUNC(p)) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type != BC_LEX_NEWLINE && + p->lex.token.type != BC_LEX_SEMICOLON && + p->lex.token.type != BC_LEX_LEFT_PAREN && + (status = bc_posix_error(BC_STATUS_POSIX_RETURN_PARENS, + p->lex.file, p->lex.line, NULL))) + { + return status; + } + + if (p->lex.token.type == BC_LEX_NEWLINE || + p->lex.token.type == BC_LEX_SEMICOLON) + { + status = bc_vec_pushByte(code, BC_INST_RETURN_ZERO); + } + else { + if ((status = bc_parse_expr(p, code, 0))) return status; + status = bc_vec_pushByte(code, BC_INST_RETURN); + } + + return status; +} + +BcStatus bc_parse_endBody(BcParse *p, BcVec *code, int brace) { + + BcStatus status = BC_STATUS_SUCCESS; + uint8_t *flag_ptr; + + if (p->flags.len <= 1 || p->num_braces == 0) return BC_STATUS_PARSE_BAD_TOKEN; + + if (brace) { + + if (p->lex.token.type == BC_LEX_RIGHT_BRACE) { + + if (!p->num_braces) return BC_STATUS_PARSE_BAD_TOKEN; + + --p->num_braces; + + if ((status = bc_lex_next(&p->lex))) return status; + } + else return BC_STATUS_PARSE_BAD_TOKEN; + } + + if (BC_PARSE_IF(p)) { + + while (p->lex.token.type == BC_LEX_NEWLINE) { + if ((status = bc_lex_next(&p->lex))) return status; + } + + bc_vec_pop(&p->flags); + + flag_ptr = BC_PARSE_TOP_FLAG_PTR(p); + *flag_ptr = (*flag_ptr | BC_PARSE_FLAG_IF_END); + + if (p->lex.token.type == BC_LEX_KEY_ELSE) status = bc_parse_else(p, code); + } + else if (BC_PARSE_ELSE(p)) { + + BcInstPtr *ip; + BcFunc *func; + size_t *label; + + bc_vec_pop(&p->flags); + + ip = bc_vec_top(&p->exits); + func = bc_vec_item(&p->prog->funcs, p->func); + label = bc_vec_item(&func->labels, ip->idx); + *label = code->len; + + bc_vec_pop(&p->exits); + } + else if (BC_PARSE_FUNC_INNER(p)) { + p->func = 0; + if ((status = bc_vec_pushByte(code, BC_INST_RETURN_ZERO))) return status; + bc_vec_pop(&p->flags); + } + else { + + BcInstPtr *ip; + BcFunc *func; + size_t *label; + + if ((status = bc_vec_pushByte(code, BC_INST_JUMP))) return status; + + ip = bc_vec_top(&p->exits); + label = bc_vec_top(&p->conds); + + if ((status = bc_parse_pushIndex(code, *label))) return status; + + func = bc_vec_item(&p->prog->funcs, p->func); + label = bc_vec_item(&func->labels, ip->idx); + *label = code->len; + + bc_vec_pop(&p->flags); + bc_vec_pop(&p->exits); + bc_vec_pop(&p->conds); + } + + return status; +} + +BcStatus bc_parse_startBody(BcParse *p, uint8_t flags) { + uint8_t *flag_ptr = BC_PARSE_TOP_FLAG_PTR(p); + flags |= (*flag_ptr & (BC_PARSE_FLAG_FUNC | BC_PARSE_FLAG_LOOP)); + flags |= BC_PARSE_FLAG_BODY; + return bc_vec_push(&p->flags, &flags); +} + +void bc_parse_noElse(BcParse *p, BcVec *code) { + + uint8_t *flag_ptr; + BcInstPtr *ip; + BcFunc *func; + size_t *label; + + flag_ptr = BC_PARSE_TOP_FLAG_PTR(p); + *flag_ptr = (*flag_ptr & ~(BC_PARSE_FLAG_IF_END)); + + ip = bc_vec_top(&p->exits); + func = bc_vec_item(&p->prog->funcs, p->func); + label = bc_vec_item(&func->labels, ip->idx); + *label = code->len; + + bc_vec_pop(&p->exits); +} + +BcStatus bc_parse_if(BcParse *p, BcVec *code) { + + BcStatus status; + BcInstPtr ip; + BcFunc *func; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + status = bc_parse_expr(p, code, BC_PARSE_EXPR_POSIX_REL); + if (status) return status; + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + if ((status = bc_vec_pushByte(code, BC_INST_JUMP_ZERO))) return status; + + func = bc_vec_item(&p->prog->funcs, p->func); + + ip.idx = func->labels.len; + ip.func = 0; + ip.len = 0; + + if ((status = bc_parse_pushIndex(code, ip.idx))) return status; + if ((status = bc_vec_push(&p->exits, &ip))) return status; + if ((status = bc_vec_push(&func->labels, &ip.idx))) return status; + + return bc_parse_startBody(p, BC_PARSE_FLAG_IF); +} + +BcStatus bc_parse_else(BcParse *p, BcVec *code) { + + BcStatus status; + BcInstPtr ip; + BcFunc *func; + + if (!BC_PARSE_IF_END(p)) return BC_STATUS_PARSE_BAD_TOKEN; + + func = bc_vec_item(&p->prog->funcs, p->func); + + ip.idx = func->labels.len; + ip.func = 0; + ip.len = 0; + + if ((status = bc_vec_pushByte(code, BC_INST_JUMP))) return status; + if ((status = bc_parse_pushIndex(code, ip.idx))) return status; + + bc_parse_noElse(p, code); + + if ((status = bc_vec_push(&p->exits, &ip))) return status; + if ((status = bc_vec_push(&func->labels, &ip.idx))) return status; + if ((status = bc_lex_next(&p->lex))) return status; + + return bc_parse_startBody(p, BC_PARSE_FLAG_ELSE); +} + +BcStatus bc_parse_while(BcParse *p, BcVec *code) { + + BcStatus status; + BcFunc *func; + BcInstPtr ip; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_lex_next(&p->lex))) return status; + + func = bc_vec_item(&p->prog->funcs, p->func); + ip.idx = func->labels.len; + + if ((status = bc_vec_push(&func->labels, &code->len))) return status; + if ((status = bc_vec_push(&p->conds, &ip.idx))) return status; + + ip.idx = func->labels.len; + ip.func = 1; + ip.len = 0; + + if ((status = bc_vec_push(&p->exits, &ip))) return status; + if ((status = bc_vec_push(&func->labels, &ip.idx))) return status; + + if ((status = bc_parse_expr(p, code, BC_PARSE_EXPR_POSIX_REL))) return status; + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + if ((status = bc_vec_pushByte(code, BC_INST_JUMP_ZERO))) return status; + if ((status = bc_parse_pushIndex(code, ip.idx))) return status; + + return bc_parse_startBody(p, BC_PARSE_FLAG_LOOP | BC_PARSE_FLAG_LOOP_INNER); +} + +BcStatus bc_parse_for(BcParse *p, BcVec *code) { + + BcStatus status; + BcFunc *func; + BcInstPtr ip; + size_t cond_idx, exit_idx, body_idx, update_idx; + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type != BC_LEX_SEMICOLON) + status = bc_parse_expr(p, code, 0); + else + status = bc_posix_error(BC_STATUS_POSIX_NO_FOR_INIT, + p->lex.file, p->lex.line, NULL); + + if (status) return status; + if (p->lex.token.type != BC_LEX_SEMICOLON) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_lex_next(&p->lex))) return status; + + func = bc_vec_item(&p->prog->funcs, p->func); + + cond_idx = func->labels.len; + update_idx = cond_idx + 1; + body_idx = update_idx + 1; + exit_idx = body_idx + 1; + + if ((status = bc_vec_push(&func->labels, &code->len))) return status; + + if (p->lex.token.type != BC_LEX_SEMICOLON) + status = bc_parse_expr(p, code, BC_PARSE_EXPR_POSIX_REL); + else status = bc_posix_error(BC_STATUS_POSIX_NO_FOR_COND, + p->lex.file, p->lex.line, NULL); + + if (status) return status; + if (p->lex.token.type != BC_LEX_SEMICOLON) return BC_STATUS_PARSE_BAD_TOKEN; + + if ((status = bc_lex_next(&p->lex))) return status; + if ((status = bc_vec_pushByte(code, BC_INST_JUMP_ZERO))) return status; + if ((status = bc_parse_pushIndex(code, exit_idx))) return status; + if ((status = bc_vec_pushByte(code, BC_INST_JUMP))) return status; + if ((status = bc_parse_pushIndex(code, body_idx))) return status; + + ip.idx = func->labels.len; + + if ((status = bc_vec_push(&p->conds, &update_idx))) return status; + if ((status = bc_vec_push(&func->labels, &code->len))) return status; + + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) + status = bc_parse_expr(p, code, 0); + else + status = bc_posix_error(BC_STATUS_POSIX_NO_FOR_UPDATE, + p->lex.file, p->lex.line, NULL); + + if (status) return status; + + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) { + status = bc_parse_expr(p, code, BC_PARSE_EXPR_POSIX_REL); + if (status) return status; + } + + if (p->lex.token.type != BC_LEX_RIGHT_PAREN) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_vec_pushByte(code, BC_INST_JUMP))) return status; + if ((status = bc_parse_pushIndex(code, cond_idx))) return status; + if ((status = bc_vec_push(&func->labels, &code->len))) return status; + + ip.idx = exit_idx; + ip.func = 1; + ip.len = 0; + + if ((status = bc_vec_push(&p->exits, &ip))) return status; + if ((status = bc_vec_push(&func->labels, &ip.idx))) return status; + if ((status = bc_lex_next(&p->lex))) return status; + + return bc_parse_startBody(p, BC_PARSE_FLAG_LOOP | BC_PARSE_FLAG_LOOP_INNER); +} + +BcStatus bc_parse_loopExit(BcParse *p, BcVec *code, BcLexToken type) { + + BcStatus status; + size_t idx, top; + BcInstPtr *ip; + + if (!BC_PARSE_LOOP(p)) return BC_STATUS_PARSE_BAD_TOKEN; + + if (type == BC_LEX_KEY_BREAK) { + + if (!p->exits.len) return BC_STATUS_PARSE_BAD_TOKEN; + + top = p->exits.len - 1; + ip = bc_vec_item(&p->exits, top); + + while (top < p->exits.len && ip && !ip->func) + ip = bc_vec_item(&p->exits, top--); + + if (top >= p->exits.len || !ip) return BC_STATUS_PARSE_BAD_TOKEN; + + idx = ip->idx; + } + else idx = *((size_t*) bc_vec_top(&p->conds)); + + if ((status = bc_vec_pushByte(code, BC_INST_JUMP))) return status; + if ((status = bc_parse_pushIndex(code, idx))) return status; + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type != BC_LEX_SEMICOLON && + p->lex.token.type != BC_LEX_NEWLINE) + { + return BC_STATUS_PARSE_BAD_TOKEN; + } + + return bc_lex_next(&p->lex); +} + +BcStatus bc_parse_func(BcParse *p) { + + BcStatus status; + BcFunc *fptr; + int var, comma = 0; + uint8_t flags; + char *name; + + if ((status = bc_lex_next(&p->lex))) return status; + + name = p->lex.token.string; + + if (p->lex.token.type != BC_LEX_NAME) { + status = BC_STATUS_PARSE_BAD_FUNC; + goto err; + } + + status = bc_program_addFunc(p->prog, name, &p->func); + if (status) goto err; + + fptr = bc_vec_item(&p->prog->funcs, p->func); + + if ((status = bc_lex_next(&p->lex))) return status; + if (p->lex.token.type != BC_LEX_LEFT_PAREN) return BC_STATUS_PARSE_BAD_FUNC; + if ((status = bc_lex_next(&p->lex))) return status; + + while (!status && p->lex.token.type != BC_LEX_RIGHT_PAREN) { + + if (p->lex.token.type != BC_LEX_NAME) { + status = BC_STATUS_PARSE_BAD_FUNC; + goto err; + } + + ++fptr->nparams; + name = p->lex.token.string; + + if ((status = bc_lex_next(&p->lex))) goto err; + + var = p->lex.token.type != BC_LEX_LEFT_BRACKET; + + if (!var) { + if ((status = bc_lex_next(&p->lex))) goto err; + if (p->lex.token.type != BC_LEX_RIGHT_BRACKET) + return BC_STATUS_PARSE_BAD_FUNC; + if ((status = bc_lex_next(&p->lex))) goto err; + } + + comma = p->lex.token.type == BC_LEX_COMMA; + if (comma && (status = bc_lex_next(&p->lex))) goto err; + + if ((status = bc_func_insert(fptr, name, var))) goto err; + } + + if (comma) return BC_STATUS_PARSE_BAD_FUNC; + + flags = BC_PARSE_FLAG_FUNC | BC_PARSE_FLAG_FUNC_INNER | BC_PARSE_FLAG_BODY; + + if ((status = bc_parse_startBody(p, flags))) return status; + if ((status = bc_lex_next(&p->lex))) return status; + + if (p->lex.token.type != BC_LEX_LEFT_BRACE) + return bc_posix_error(BC_STATUS_POSIX_HEADER_BRACE, + p->lex.file, p->lex.line, NULL); + + return status; + +err: + free(name); + return status; +} + +BcStatus bc_parse_auto(BcParse *p) { + + BcStatus status; + int comma, var, one; + char *name; + BcFunc *func; + + if (!p->auto_part) return BC_STATUS_PARSE_BAD_TOKEN; + if ((status = bc_lex_next(&p->lex))) return status; + + p->auto_part = comma = one = 0; + func = bc_vec_item(&p->prog->funcs, p->func); + + while (!status && p->lex.token.type == BC_LEX_NAME) { + + name = p->lex.token.string; + + if ((status = bc_lex_next(&p->lex))) return status; + + one = 1; + + var = p->lex.token.type != BC_LEX_LEFT_BRACKET; + + if (!var) { + + if ((status = bc_lex_next(&p->lex))) goto err; + if (p->lex.token.type != BC_LEX_RIGHT_BRACKET) + return BC_STATUS_PARSE_BAD_FUNC; + + if ((status = bc_lex_next(&p->lex))) goto err; + } + + comma = p->lex.token.type == BC_LEX_COMMA; + if (comma && (status = bc_lex_next(&p->lex))) goto err; + + if ((status = bc_func_insert(func, name, var))) goto err; + } + + if (status) return status; + if (comma) return BC_STATUS_PARSE_BAD_FUNC; + if (!one) return BC_STATUS_PARSE_NO_AUTO; + + if (p->lex.token.type != BC_LEX_NEWLINE && + p->lex.token.type != BC_LEX_SEMICOLON) + { + return BC_STATUS_PARSE_BAD_TOKEN; + } + + return bc_lex_next(&p->lex); + +err: + free(name); + return status; +} + +BcStatus bc_parse_body(BcParse *p, BcVec *code, int brace) { + + BcStatus status; + uint8_t *flag_ptr; + + flag_ptr = bc_vec_top(&p->flags); + *flag_ptr &= ~(BC_PARSE_FLAG_BODY); + + if (*flag_ptr & BC_PARSE_FLAG_FUNC_INNER) { + if (!brace) return BC_STATUS_PARSE_BAD_TOKEN; + p->auto_part = 1; + status = bc_lex_next(&p->lex); + } + else { + if ((status = bc_parse_stmt(p, code))) return status; + if (!brace) status = bc_parse_endBody(p, code, 0); + } + + return status; +} + +BcStatus bc_parse_stmt(BcParse *p, BcVec *code) { + + BcStatus status; + + switch (p->lex.token.type) { + + case BC_LEX_NEWLINE: + { + return bc_lex_next(&p->lex); + } + + case BC_LEX_KEY_ELSE: + { + p->auto_part = 0; + break; + } + + case BC_LEX_LEFT_BRACE: + { + if (!BC_PARSE_BODY(p)) return BC_STATUS_PARSE_BAD_TOKEN; + + ++p->num_braces; + if ((status = bc_lex_next(&p->lex))) return status; + + return bc_parse_body(p, code, 1); + } + + case BC_LEX_KEY_AUTO: + { + return bc_parse_auto(p); + } + + default: + { + p->auto_part = 0; + + if (BC_PARSE_IF_END(p)) { + bc_parse_noElse(p, code); + return BC_STATUS_SUCCESS; + } + else if (BC_PARSE_BODY(p)) return bc_parse_body(p, code, 0); + + break; + } + } + + switch (p->lex.token.type) { + + case BC_LEX_OP_INC: + case BC_LEX_OP_DEC: + case BC_LEX_OP_MINUS: + case BC_LEX_OP_BOOL_NOT: + case BC_LEX_LEFT_PAREN: + case BC_LEX_NAME: + case BC_LEX_NUMBER: + case BC_LEX_KEY_IBASE: + case BC_LEX_KEY_LAST: + case BC_LEX_KEY_LENGTH: + case BC_LEX_KEY_OBASE: + case BC_LEX_KEY_READ: + case BC_LEX_KEY_SCALE: + case BC_LEX_KEY_SQRT: + { + status = bc_parse_expr(p, code, BC_PARSE_EXPR_PRINT); + break; + } + + case BC_LEX_KEY_ELSE: + { + status = bc_parse_else(p, code); + break; + } + + case BC_LEX_SEMICOLON: + { + status = BC_STATUS_SUCCESS; + + while (!status && p->lex.token.type == BC_LEX_SEMICOLON) + status = bc_lex_next(&p->lex); + + break; + } + + case BC_LEX_RIGHT_BRACE: + { + status = bc_parse_endBody(p, code, 1); + break; + } + + case BC_LEX_STRING: + { + status = bc_parse_string(p, code); + break; + } + + case BC_LEX_KEY_BREAK: + case BC_LEX_KEY_CONTINUE: + { + status = bc_parse_loopExit(p, code, p->lex.token.type); + break; + } + + case BC_LEX_KEY_FOR: + { + status = bc_parse_for(p, code); + break; + } + + case BC_LEX_KEY_HALT: + { + if ((status = bc_vec_pushByte(code, BC_INST_HALT))) return status; + status = bc_lex_next(&p->lex); + break; + } + + case BC_LEX_KEY_IF: + { + status = bc_parse_if(p, code); + break; + } + + case BC_LEX_KEY_LIMITS: + { + if ((status = bc_lex_next(&p->lex))) return status; + status = BC_STATUS_LIMITS; + break; + } + + case BC_LEX_KEY_PRINT: + { + status = bc_parse_print(p, code); + break; + } + + case BC_LEX_KEY_QUIT: + { + // Quit is a compile-time command, so we send an exit command. We don't + // exit directly, so the vm can clean up. Limits do the same thing. + status = BC_STATUS_QUIT; + break; + } + + case BC_LEX_KEY_RETURN: + { + if ((status = bc_parse_return(p, code))) return status; + break; + } + + case BC_LEX_KEY_WHILE: + { + status = bc_parse_while(p, code); + break; + } + + case BC_LEX_EOF: + { + status = (p->flags.len > 0) * BC_STATUS_LEX_BAD_CHARACTER; + break; + } + + default: + { + status = BC_STATUS_PARSE_BAD_TOKEN; + break; + } + } + + return status; +} + +BcStatus bc_parse_init(BcParse *p, BcProgram *program) { + + BcStatus status; + uint8_t flags = 0; + + if ((status = bc_vec_init(&p->flags, sizeof(uint8_t), NULL))) return status; + if ((status = bc_vec_init(&p->exits, sizeof(BcInstPtr), NULL))) goto exit_err; + if ((status = bc_vec_init(&p->conds, sizeof(size_t), NULL))) goto cond_err; + if ((status = bc_vec_push(&p->flags, &flags))) goto push_err; + if ((status = bc_vec_init(&p->ops, sizeof(BcLexToken), NULL))) goto push_err; + + p->prog = program; + p->func = p->num_braces = 0; + p->auto_part = 0; + + return status; + +push_err: + bc_vec_free(&p->conds); +cond_err: + bc_vec_free(&p->exits); +exit_err: + bc_vec_free(&p->flags); + return status; +} + +BcStatus bc_parse_parse(BcParse *p) { + + BcStatus status; + + if (p->lex.token.type == BC_LEX_EOF) status = BC_STATUS_LEX_EOF; + else if (p->lex.token.type == BC_LEX_KEY_DEFINE) { + if (!BC_PARSE_CAN_EXEC(p)) return BC_STATUS_PARSE_BAD_TOKEN; + status = bc_parse_func(p); + } + else { + BcFunc *func = bc_vec_item(&p->prog->funcs, p->func); + status = bc_parse_stmt(p, &func->code); + } + + if (status || TT.signe) { + + if (p->func) { + + BcFunc *func = bc_vec_item(&p->prog->funcs, p->func); + + func->nparams = 0; + bc_vec_npop(&func->code, func->code.len); + bc_vec_npop(&func->autos, func->autos.len); + bc_vec_npop(&func->labels, func->labels.len); + + p->func = 0; + } + + p->lex.idx = p->lex.len; + p->lex.token.type = BC_LEX_EOF; + p->auto_part = 0; + p->num_braces = 0; + + bc_vec_npop(&p->flags, p->flags.len - 1); + bc_vec_npop(&p->exits, p->exits.len); + bc_vec_npop(&p->conds, p->conds.len); + bc_vec_npop(&p->ops, p->ops.len); + + status = bc_program_reset(p->prog, status); + } + + return status; +} + +void bc_parse_free(BcParse *p) { + + if (!p) return; + + bc_vec_free(&p->flags); + bc_vec_free(&p->exits); + bc_vec_free(&p->conds); + bc_vec_free(&p->ops); + + if ((p->lex.token.type == BC_LEX_STRING || p->lex.token.type == BC_LEX_NAME || + p->lex.token.type == BC_LEX_NUMBER) && p->lex.token.string) + { + free(p->lex.token.string); + } +} + +BcStatus bc_parse_expr(BcParse *p, BcVec *code, uint8_t flags) { + + BcStatus status; + uint32_t nexprs, nparens, ops_start, nrelops; + int paren_first, paren_expr, rparen, done, get_token, assign; + BcInst prev; + BcLexToken type, top; + + status = BC_STATUS_SUCCESS; + prev = BC_INST_PRINT; + + ops_start = p->ops.len; + paren_first = p->lex.token.type == BC_LEX_LEFT_PAREN; + nexprs = nparens = nrelops = 0; + paren_expr = rparen = done = get_token = assign = 0; + + type = p->lex.token.type; + + while (!TT.signe && !status && !done && bc_parse_token_exprs[type]) { + + switch (type) { + + case BC_LEX_OP_INC: + case BC_LEX_OP_DEC: + { + status = bc_parse_incdec(p, code, &prev, &nexprs, flags); + rparen = get_token = 0; + break; + } + + case BC_LEX_OP_MINUS: + { + status = bc_parse_minus(p, code, &p->ops, &prev, + rparen, &nexprs); + rparen = get_token = 0; + break; + } + + case BC_LEX_OP_ASSIGN_POWER: + case BC_LEX_OP_ASSIGN_MULTIPLY: + case BC_LEX_OP_ASSIGN_DIVIDE: + case BC_LEX_OP_ASSIGN_MODULUS: + case BC_LEX_OP_ASSIGN_PLUS: + case BC_LEX_OP_ASSIGN_MINUS: + case BC_LEX_OP_ASSIGN: + if (prev != BC_INST_PUSH_VAR && prev != BC_INST_PUSH_ARRAY_ELEM && + prev != BC_INST_PUSH_SCALE && prev != BC_INST_PUSH_IBASE && + prev != BC_INST_PUSH_OBASE && prev != BC_INST_PUSH_LAST) + { + status = BC_STATUS_PARSE_BAD_ASSIGN; + break; + } + // Fallthrough. + case BC_LEX_OP_POWER: + case BC_LEX_OP_MULTIPLY: + case BC_LEX_OP_DIVIDE: + case BC_LEX_OP_MODULUS: + case BC_LEX_OP_PLUS: + case BC_LEX_OP_REL_EQUAL: + case BC_LEX_OP_REL_LESS_EQ: + case BC_LEX_OP_REL_GREATER_EQ: + case BC_LEX_OP_REL_NOT_EQ: + case BC_LEX_OP_REL_LESS: + case BC_LEX_OP_REL_GREATER: + case BC_LEX_OP_BOOL_NOT: + case BC_LEX_OP_BOOL_OR: + case BC_LEX_OP_BOOL_AND: + { + if (type >= BC_LEX_OP_REL_EQUAL && type <= BC_LEX_OP_REL_GREATER) + nrelops += 1; + + prev = BC_PARSE_TOKEN_TO_INST(type); + status = bc_parse_operator(p, code, &p->ops, type, &nexprs, 1); + rparen = get_token = 0; + + break; + } + + case BC_LEX_LEFT_PAREN: + { + ++nparens; + paren_expr = rparen = 0; + get_token = 1; + status = bc_vec_push(&p->ops, &type); + break; + } + + case BC_LEX_RIGHT_PAREN: + { + if (nparens == 0) { + status = BC_STATUS_SUCCESS; + done = 1; + get_token = 0; + break; + } + else if (!paren_expr) { + status = BC_STATUS_PARSE_BAD_EXPR; + goto err; + } + + --nparens; + paren_expr = rparen = 1; + get_token = 0; + + status = bc_parse_rightParen(p, code, &p->ops, &nexprs); + + break; + } + + case BC_LEX_NAME: + { + paren_expr = 1; + rparen = get_token = 0; + status = bc_parse_name(p, code, &prev, flags & ~(BC_PARSE_EXPR_NOCALL)); + ++nexprs; + break; + } + + case BC_LEX_NUMBER: + { + size_t idx = p->prog->constants.len; + + status = bc_vec_push(&p->prog->constants, &p->lex.token.string); + if (status) goto err; + + if ((status = bc_vec_pushByte(code, BC_INST_PUSH_NUM))) return status; + if ((status = bc_parse_pushIndex(code, idx))) return status; + + paren_expr = get_token = 1; + rparen = 0; + ++nexprs; + prev = BC_INST_PUSH_NUM; + + break; + } + + case BC_LEX_KEY_IBASE: + case BC_LEX_KEY_LAST: + case BC_LEX_KEY_OBASE: + { + uint8_t inst = type - BC_LEX_KEY_IBASE + BC_INST_PUSH_IBASE; + status = bc_vec_pushByte(code, inst); + + paren_expr = get_token = 1; + rparen = 0; + ++nexprs; + prev = BC_INST_PUSH_OBASE; + + break; + } + + case BC_LEX_KEY_LENGTH: + case BC_LEX_KEY_SQRT: + { + status = bc_parse_builtin(p, code, type, flags); + paren_expr = 1; + rparen = get_token = 0; + ++nexprs; + prev = type == BC_LEX_KEY_LENGTH ? BC_INST_LENGTH : BC_INST_SQRT; + break; + } + + case BC_LEX_KEY_READ: + { + if (flags & BC_PARSE_EXPR_NOREAD) status = BC_STATUS_EXEC_NESTED_READ; + else status = bc_parse_read(p, code); + + paren_expr = 1; + rparen = get_token = 0; + ++nexprs; + prev = BC_INST_READ; + + break; + } + + case BC_LEX_KEY_SCALE: + { + status = bc_parse_scale(p, code, &prev, flags); + paren_expr = 1; + rparen = get_token = 0; + ++nexprs; + prev = BC_INST_PUSH_SCALE; + break; + } + + default: + { + status = BC_STATUS_PARSE_BAD_TOKEN; + break; + } + } + + if (status) goto err; + if (get_token) status = bc_lex_next(&p->lex); + + type = p->lex.token.type; + } + + if (status) goto err; + if (TT.signe) { + status = BC_STATUS_EXEC_SIGNAL; + goto err; + } + + status = BC_STATUS_SUCCESS; + + while (!status && p->ops.len > ops_start) { + + top = *((BcLexToken*) bc_vec_top(&p->ops)); + assign = top >= BC_LEX_OP_ASSIGN_POWER && top <= BC_LEX_OP_ASSIGN; + + if (top == BC_LEX_LEFT_PAREN || top == BC_LEX_RIGHT_PAREN) { + status = BC_STATUS_PARSE_BAD_EXPR; + goto err; + } + + if ((status = bc_vec_pushByte(code, BC_PARSE_TOKEN_TO_INST(top)))) goto err; + + nexprs -= top != BC_LEX_OP_BOOL_NOT && top != BC_LEX_OP_NEG; + bc_vec_pop(&p->ops); + } + + if (nexprs != 1) { + status = BC_STATUS_PARSE_BAD_EXPR; + goto err; + } + + if (!(flags & BC_PARSE_EXPR_POSIX_REL) && nrelops && + (status = bc_posix_error(BC_STATUS_POSIX_REL_OUTSIDE, + p->lex.file, p->lex.line, NULL))) + { + goto err; + } + else if ((flags & BC_PARSE_EXPR_POSIX_REL) && nrelops != 1 && + (status = bc_posix_error(BC_STATUS_POSIX_MULTIPLE_REL, + p->lex.file, p->lex.line, NULL))) + { + goto err; + } + + if (flags & BC_PARSE_EXPR_PRINT) { + if (paren_first || !assign) status = bc_vec_pushByte(code, BC_INST_PRINT); + else status = bc_vec_pushByte(code, BC_INST_POP); + } + + return status; + +err: + + if (p->lex.token.string) { + free(p->lex.token.string); + p->lex.token.string = NULL; + } + + return status; +} + +BcStatus bc_program_search(BcProgram *p, BcResult *result, + BcNum **ret, uint8_t flags) +{ + BcStatus status; + BcEntry entry, *entry_ptr; + BcVec *vec; + BcVecO *veco; + size_t idx, ip_idx; + BcAuto *a; + int var; + + for (ip_idx = 0; ip_idx < p->stack.len - 1; ++ip_idx) { + + BcFunc *func; + BcInstPtr *ip; + + ip = bc_vec_item_rev(&p->stack, ip_idx); + if (ip->func == BC_PROGRAM_READ || ip->func == BC_PROGRAM_MAIN) continue; + + func = bc_vec_item(&p->funcs, ip->func); + + for (idx = 0; idx < func->autos.len; ++idx) { + + a = bc_vec_item(&func->autos, idx); + + if (!strcmp(a->name, result->data.id.name)) { + + BcResult *r; + uint8_t cond; + + cond = flags & BC_PROGRAM_SEARCH_VAR; + + if (!a->var != !cond) return BC_STATUS_EXEC_BAD_TYPE; + + r = bc_vec_item(&p->results, ip->len + idx); + + if (cond || flags & BC_PROGRAM_SEARCH_ARRAY) *ret = &r->data.num; + else { + status = bc_array_expand(&r->data.array, result->data.id.idx + 1); + if (status) return status; + *ret = bc_vec_item(&r->data.array, result->data.id.idx); + } + + return BC_STATUS_SUCCESS; + } + } + } + + var = flags & BC_PROGRAM_SEARCH_VAR; + vec = var ? &p->vars : &p->arrays; + veco = var ? &p->var_map : &p->array_map; + + entry.name = result->data.id.name; + entry.idx = vec->len; + + status = bc_veco_insert(veco, &entry, &idx); + + if (status != BC_STATUS_VEC_ITEM_EXISTS) { + + // We use this because it has a union of BcNum and BcVec. + BcResult data; + size_t len; + + if (status) return status; + + len = strlen(entry.name) + 1; + + if (!(result->data.id.name = malloc(len))) return BC_STATUS_MALLOC_FAIL; + + strcpy(result->data.id.name, entry.name); + + if (flags & BC_PROGRAM_SEARCH_VAR) + status = bc_num_init(&data.data.num, BC_NUM_DEF_SIZE); + else status = bc_vec_init(&data.data.array, sizeof(BcNum), bc_num_free); + + if (status) return status; + if ((status = bc_vec_push(vec, &data.data))) return status; + } + + entry_ptr = bc_veco_item(veco, idx); + + if (var) *ret = bc_vec_item(vec, entry_ptr->idx); + else { + + BcVec *ptr = bc_vec_item(vec, entry_ptr->idx); + + if (flags & BC_PROGRAM_SEARCH_ARRAY) { + *ret = (BcNum*) ptr; + return BC_STATUS_SUCCESS; + } + + if ((status = bc_array_expand(ptr, result->data.id.idx + 1))) return status; + + *ret = bc_vec_item(ptr, result->data.id.idx); + } + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_program_num(BcProgram *p, BcResult *result, BcNum** num, int hex) { + + BcStatus status = BC_STATUS_SUCCESS; + + switch (result->type) { + + case BC_RESULT_TEMP: + case BC_RESULT_SCALE: + { + *num = &result->data.num; + break; + } + + case BC_RESULT_CONSTANT: + { + char** s; + size_t len, base; + + s = bc_vec_item(&p->constants, result->data.id.idx); + len = strlen(*s); + + if ((status = bc_num_init(&result->data.num, len))) return status; + + base = hex && len == 1 ? BC_NUM_MAX_INPUT_BASE : p->ibase_t; + + if ((status = bc_num_parse(&result->data.num, *s, &p->ibase, base))) { + bc_num_free(&result->data.num); + return status; + } + + *num = &result->data.num; + result->type = BC_RESULT_TEMP; + + break; + } + + case BC_RESULT_VAR: + case BC_RESULT_ARRAY: + { + uint8_t flags = result->type == BC_RESULT_VAR ? BC_PROGRAM_SEARCH_VAR : 0; + status = bc_program_search(p, result, num, flags); + break; + } + + case BC_RESULT_LAST: + { + *num = &p->last; + break; + } + + case BC_RESULT_IBASE: + { + *num = &p->ibase; + break; + } + + case BC_RESULT_OBASE: + { + *num = &p->obase; + break; + } + + case BC_RESULT_ONE: + { + *num = &p->one; + break; + } + + default: + { + // This is here to prevent compiler warnings in release mode. + *num = &result->data.num; + break; + } + } + + return status; +} + +BcStatus bc_program_binaryOpPrep(BcProgram *p, BcResult **left, BcNum **lval, + BcResult **right, BcNum **rval) +{ + BcStatus status; + BcResult *l, *r; + int hex; + + r = bc_vec_item_rev(&p->results, 0); + l = bc_vec_item_rev(&p->results, 1); + + *left = l; + *right = r; + + hex = l->type == BC_RESULT_IBASE || l->type == BC_RESULT_OBASE; + + if ((status = bc_program_num(p, l, lval, 0))) return status; + if ((status = bc_program_num(p, r, rval, hex))) return status; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_program_binaryOpRetire(BcProgram *p, BcResult *result, + BcResultType type) +{ + result->type = type; + bc_vec_pop(&p->results); + bc_vec_pop(&p->results); + return bc_vec_push(&p->results, result); +} + +BcStatus bc_program_unaryOpPrep(BcProgram *p, BcResult **result, BcNum **val) { + + BcStatus status; + BcResult *r; + + r = bc_vec_item_rev(&p->results, 0); + + if ((status = bc_program_num(p, r, val, 0))) return status; + + *result = r; + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_program_unaryOpRetire(BcProgram *p, BcResult *result, + BcResultType type) +{ + result->type = type; + bc_vec_pop(&p->results); + return bc_vec_push(&p->results, result); +} + +BcStatus bc_program_op(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult *operand1, *operand2, res; + BcNum *num1, *num2; + BcNumBinaryFunc op; + + status = bc_program_binaryOpPrep(p, &operand1, &num1, &operand2, &num2); + if (status) return status; + + if ((status = bc_num_init(&res.data.num, BC_NUM_DEF_SIZE))) return status; + + op = bc_program_math_ops[inst - BC_INST_POWER]; + if ((status = op(num1, num2, &res.data.num, p->scale))) goto err; + if ((status = bc_program_binaryOpRetire(p, &res, BC_RESULT_TEMP))) goto err; + + return status; + +err: + bc_num_free(&res.data.num); + return status; +} + +BcStatus bc_program_read(BcProgram *p) { + + BcStatus status; + BcParse parse; + char *buffer; + size_t size; + BcFunc *func; + BcInstPtr ip; + + func = bc_vec_item(&p->funcs, BC_PROGRAM_READ); + func->code.len = 0; + + if (!(buffer = malloc(BC_PROGRAM_BUF_SIZE + 1))) return BC_STATUS_MALLOC_FAIL; + + size = BC_PROGRAM_BUF_SIZE; + + if ((status = bc_io_getline(&buffer, &size)))goto io_err; + + if ((status = bc_parse_init(&parse, p))) goto io_err; + bc_lex_init(&parse.lex, ""); + if ((status = bc_lex_text(&parse.lex, buffer))) goto exec_err; + + if ((status = bc_parse_expr(&parse, &func->code, BC_PARSE_EXPR_NOREAD))) return status; + + if (parse.lex.token.type != BC_LEX_NEWLINE && + parse.lex.token.type != BC_LEX_EOF) + { + status = BC_STATUS_EXEC_BAD_READ_EXPR; + goto exec_err; + } + + ip.func = BC_PROGRAM_READ; + ip.idx = 0; + ip.len = p->results.len; + + if ((status = bc_vec_push(&p->stack, &ip))) goto exec_err; + if ((status = bc_program_exec(p))) goto exec_err; + + bc_vec_pop(&p->stack); + +exec_err: + bc_parse_free(&parse); +io_err: + free(buffer); + return status; +} + +size_t bc_program_index(uint8_t *code, size_t *start) { + + uint8_t bytes, i; + size_t result; + + for (bytes = code[(*start)++], result = 0, i = 0; i < bytes; ++i) + result |= (((size_t) code[(*start)++]) << (i * CHAR_BIT)); + + return result; +} + +char* bc_program_name(uint8_t *code, size_t *start) { + + char byte, *s, *string, *ptr; + size_t len, i; + + string = (char*) (code + *start); + ptr = strchr((char*) string, ':'); + + if (ptr) len = ((unsigned long) ptr) - ((unsigned long) string); + else len = strlen(string); + + if (!(s = malloc(len + 1))) return NULL; + + for (byte = code[(*start)++], i = 0; byte && byte != ':'; ++i) { + s[i] = byte; + byte = code[(*start)++]; + } + + s[i] = '\0'; + + return s; +} + +BcStatus bc_program_printString(const char *str, size_t *nchars) { + + char c, c2; + size_t len, i; + int err; + + len = strlen(str); + + for (i = 0; i < len; ++i, ++(*nchars)) { + + if ((c = str[i]) != '\\') err = putchar(c); + else { + + ++i; + c2 = str[i]; + + switch (c2) { + + case 'a': + { + err = putchar('\a'); + break; + } + + case 'b': + { + err = putchar('\b'); + break; + } + + case 'e': + { + err = putchar('\\'); + break; + } + + case 'f': + { + err = putchar('\f'); + break; + } + + case 'n': + { + err = putchar('\n'); + *nchars = SIZE_MAX; + break; + } + + case 'r': + { + err = putchar('\r'); + break; + } + + case 'q': + { + err = putchar('"'); + break; + } + + case 't': + { + err = putchar('\t'); + break; + } + + default: + { + // Do nothing. + err = 0; + break; + } + } + } + + if (err == EOF) return BC_STATUS_IO_ERR; + } + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_program_push(BcProgram *p, uint8_t *code, size_t *start, int var) { + + BcStatus status; + BcResult result; + + result.data.id.name = bc_program_name(code, start); + + if (var) { + result.type = BC_RESULT_VAR; + status = bc_vec_push(&p->results, &result); + } + else { + + BcResult *operand; + BcNum *num; + unsigned long temp; + + if ((status = bc_program_unaryOpPrep(p, &operand, &num))) goto err; + if ((status = bc_num_ulong(num, &temp))) goto err; + + if (temp > (unsigned long) maxof_DIM) { + status = BC_STATUS_EXEC_ARRAY_LEN; + goto err; + } + + result.data.id.idx = (size_t) temp; + + status = bc_program_unaryOpRetire(p, &result, BC_RESULT_ARRAY); + } + + if (status) goto err; + + return status; + +err: + free(result.data.id.name); + return status; +} + +BcStatus bc_program_negate(BcProgram *p) { + + BcStatus status; + BcResult result, *ptr; + BcNum *num; + + if ((status = bc_program_unaryOpPrep(p, &ptr, &num))) return status; + if ((status = bc_num_init(&result.data.num, num->len))) return status; + if ((status = bc_num_copy(&result.data.num, num))) goto err; + + result.data.num.neg = !result.data.num.neg; + + if ((status = bc_program_unaryOpRetire(p, &result, BC_RESULT_TEMP))) goto err; + + return status; + +err: + bc_num_free(&result.data.num); + return status; +} + +BcStatus bc_program_logical(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult *operand1, *operand2, res; + BcNum *num1, *num2; + int cond; + int cmp; + + status = bc_program_binaryOpPrep(p, &operand1, &num1, &operand2, &num2); + if (status) return status; + + if ((status = bc_num_init(&res.data.num, BC_NUM_DEF_SIZE))) return status; + + if (inst == BC_INST_BOOL_AND) + cond = bc_num_cmp(num1, &p->zero) && bc_num_cmp(num2, &p->zero); + else if (inst == BC_INST_BOOL_OR) + cond = bc_num_cmp(num1, &p->zero) || bc_num_cmp(num2, &p->zero); + else { + + cmp = bc_num_cmp(num1, num2); + + switch (inst) { + case BC_INST_REL_EQ: + { + cond = cmp == 0; + break; + } + + case BC_INST_REL_LE: + { + cond = cmp <= 0; + break; + } + + case BC_INST_REL_GE: + { + cond = cmp >= 0; + break; + } + + case BC_INST_REL_NE: + { + cond = cmp != 0; + break; + } + + case BC_INST_REL_LT: + { + cond = cmp < 0; + break; + } + + case BC_INST_REL_GT: + { + cond = cmp > 0; + break; + } + + default: + { + // This is here to silence a compiler warning in release mode. + cond = 0; + break; + } + } + } + + (cond ? bc_num_one : bc_num_zero)(&res.data.num); + + if ((status = bc_program_binaryOpRetire(p, &res, BC_RESULT_TEMP))) goto err; + + return status; + +err: + bc_num_free(&res.data.num); + return status; +} + +BcStatus bc_program_assign(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult *left, *right, res; + BcNum *l, *r; + BcNumBinaryFunc op; + unsigned long val, max; + size_t *ptr; + + status = bc_program_binaryOpPrep(p, &left, &l, &right, &r); + if (status) return status; + + if (left->type == BC_RESULT_CONSTANT || left->type == BC_RESULT_TEMP) + return BC_STATUS_PARSE_BAD_ASSIGN; + + if (inst == BC_INST_ASSIGN_DIVIDE && !bc_num_cmp(r, &p->zero)) + return BC_STATUS_MATH_DIVIDE_BY_ZERO; + + if (inst == BC_INST_ASSIGN) status = bc_num_copy(l, r); + else { + op = bc_program_math_ops[inst - BC_INST_ASSIGN_POWER]; + status = op(l, r, l, p->scale); + } + + if (status) return status; + + if (left->type == BC_RESULT_IBASE || left->type == BC_RESULT_OBASE) { + + ptr = left->type == BC_RESULT_IBASE ? &p->ibase_t : &p->obase_t; + max = left->type == BC_RESULT_IBASE ? BC_NUM_MAX_INPUT_BASE : maxof_BASE; + + if ((status = bc_num_ulong(l, &val))) return status; + + if (val < BC_NUM_MIN_BASE || val > max) + return left->type - BC_RESULT_IBASE + BC_STATUS_EXEC_BAD_IBASE; + + *ptr = (size_t) val; + } + else if (left->type == BC_RESULT_SCALE) { + + if ((status = bc_num_ulong(l, &val))) return status; + if (val > (unsigned long) maxof_SCALE) return BC_STATUS_EXEC_BAD_SCALE; + + p->scale = (size_t) val; + } + + if ((status = bc_num_init(&res.data.num, l->len))) return status; + if ((status = bc_num_copy(&res.data.num, l))) goto err; + + if ((status = bc_program_binaryOpRetire(p, &res, BC_RESULT_TEMP))) goto err; + + return status; + +err: + bc_num_free(&res.data.num); + return status; +} + +BcStatus bc_program_call(BcProgram *p, uint8_t *code, size_t *idx) { + + BcStatus status; + BcInstPtr ip; + size_t nparams, i; + BcFunc *func; + BcAuto *auto_ptr; + BcResult param, *arg; + + status = BC_STATUS_SUCCESS; + nparams = bc_program_index(code, idx); + + ip.idx = 0; + ip.len = p->results.len; + ip.func = bc_program_index(code, idx); + + func = bc_vec_item(&p->funcs, ip.func); + + if (!func->code.len) return BC_STATUS_EXEC_UNDEFINED_FUNC; + if (nparams != func->nparams) return BC_STATUS_EXEC_MISMATCHED_PARAMS; + + for (i = 0; i < nparams; ++i) { + + auto_ptr = bc_vec_item(&func->autos, i); + arg = bc_vec_item_rev(&p->results, nparams - 1); + param.type = auto_ptr->var + BC_RESULT_ARRAY_AUTO; + + if (auto_ptr->var) { + + BcNum *n; + + if ((status = bc_program_num(p, arg, &n, 0))) return status; + if ((status = bc_num_init(¶m.data.num, n->len))) return status; + + status = bc_num_copy(¶m.data.num, n); + } + else { + + BcVec *a; + + if (arg->type != BC_RESULT_VAR || arg->type != BC_RESULT_ARRAY) + return BC_STATUS_EXEC_BAD_TYPE; + + status = bc_program_search(p, arg, (BcNum**) &a, BC_PROGRAM_SEARCH_ARRAY); + if (status) return status; + + status = bc_vec_init(¶m.data.array, sizeof(BcNum), bc_num_free); + if (status) return status; + + status = bc_array_copy(¶m.data.array, a); + } + + if (status || (status = bc_vec_push(&p->results, ¶m))) goto err; + } + + for (; !status && i < func->autos.len; ++i) { + + auto_ptr = bc_vec_item_rev(&func->autos, i); + param.type = auto_ptr->var + BC_RESULT_ARRAY_AUTO; + + if (auto_ptr->var) status = bc_num_init(¶m.data.num, BC_NUM_DEF_SIZE); + else status = bc_vec_init(¶m.data.array, sizeof(BcNum), bc_num_free); + + if (status) return status; + + status = bc_vec_push(&p->results, ¶m); + } + + if (status) goto err; + + return bc_vec_push(&p->stack, &ip); + +err: + bc_result_free(¶m); + return status; +} + +BcStatus bc_program_return(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult result, *operand; + BcInstPtr *ip; + BcFunc *func; + + ip = bc_vec_top(&p->stack); + func = bc_vec_item(&p->funcs, ip->func); + + result.type = BC_RESULT_TEMP; + + if (inst == BC_INST_RETURN) { + + BcNum *num; + + operand = bc_vec_top(&p->results); + + if ((status = bc_program_num(p, operand, &num, 0))) return status; + if ((status = bc_num_init(&result.data.num, num->len))) return status; + if ((status = bc_num_copy(&result.data.num, num))) goto err; + } + else { + status = bc_num_init(&result.data.num, BC_NUM_DEF_SIZE); + if (status) return status; + bc_num_zero(&result.data.num); + } + + // We need to pop arguments as well, so this takes that into account. + bc_vec_npop(&p->results, p->results.len - (ip->len - func->nparams)); + + if ((status = bc_vec_push(&p->results, &result))) goto err; + bc_vec_pop(&p->stack); + + return status; + +err: + bc_num_free(&result.data.num); + return status; +} + +unsigned long bc_program_scale(BcNum *n) { + return (unsigned long) n->rdx; +} + +unsigned long bc_program_length(BcNum *n) { + + size_t i; + unsigned long len = n->len; + + if (n->rdx == n->len) { + for (i = n->len - 1; i < n->len && !n->num[i]; --len, --i); + } + + return len; +} + +BcStatus bc_program_builtin(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult *operand; + BcNum *num1; + BcResult result; + + if ((status = bc_program_unaryOpPrep(p, &operand, &num1))) return status; + if ((status = bc_num_init(&result.data.num, BC_NUM_DEF_SIZE))) return status; + + if (inst == BC_INST_SQRT) + status = bc_num_sqrt(num1, &result.data.num, p->scale); + else { + + BcProgramBuiltInFunc func; + unsigned long ans; + + func = inst == BC_INST_LENGTH ? bc_program_length : bc_program_scale; + ans = func(num1); + + status = bc_num_ulong2num(&result.data.num, ans); + } + + if (status || (status = bc_program_unaryOpRetire(p, &result, BC_RESULT_TEMP))) + goto err; + + return status; + +err: + bc_num_free(&result.data.num); + return status; +} + +BcStatus bc_program_pushScale(BcProgram *p) { + + BcStatus status; + BcResult result; + + result.type = BC_RESULT_SCALE; + + if ((status = bc_num_init(&result.data.num, BC_NUM_DEF_SIZE))) return status; + status = bc_num_ulong2num(&result.data.num, (unsigned long) p->scale); + if (status || (status = bc_vec_push(&p->results, &result))) goto err; + + return status; + +err: + bc_num_free(&result.data.num); + return status; +} + +BcStatus bc_program_incdec(BcProgram *p, uint8_t inst) { + + BcStatus status; + BcResult *ptr, result, copy; + BcNum *num; + + if ((status = bc_program_unaryOpPrep(p, &ptr, &num))) return status; + + if (inst == BC_INST_INC_POST || inst == BC_INST_DEC_POST) { + copy.type = BC_RESULT_TEMP; + if ((status = bc_num_init(©.data.num, num->len))) return status; + } + + result.type = BC_RESULT_ONE; + inst = inst == BC_INST_INC_PRE || inst == BC_INST_INC_POST ? + BC_INST_ASSIGN_PLUS : BC_INST_ASSIGN_MINUS; + + if ((status = bc_vec_push(&p->results, &result))) goto err; + if ((status = bc_program_assign(p, inst))) goto err; + + if (inst == BC_INST_INC_POST || inst == BC_INST_DEC_POST) { + bc_vec_pop(&p->results); + if ((status = bc_vec_push(&p->results, ©))) goto err; + } + + return status; + +err: + + if (inst == BC_INST_INC_POST || inst == BC_INST_DEC_POST) + bc_num_free(©.data.num); + + return status; +} + +BcStatus bc_program_init(BcProgram *p, size_t line_len) { + + BcStatus s; + size_t idx; + char *main_name, *read_name; + BcInstPtr ip; + + main_name = read_name = NULL; + p->nchars = p->scale = 0; + p->line_len = line_len; + + if ((s = bc_num_init(&p->ibase, BC_NUM_DEF_SIZE))) return s; + bc_num_ten(&p->ibase); + p->ibase_t = 10; + + if ((s = bc_num_init(&p->obase, BC_NUM_DEF_SIZE))) goto obase_err; + bc_num_ten(&p->obase); + p->obase_t = 10; + + if ((s = bc_num_init(&p->last, BC_NUM_DEF_SIZE))) goto last_err; + bc_num_zero(&p->last); + + if ((s = bc_num_init(&p->zero, BC_NUM_DEF_SIZE))) goto zero_err; + bc_num_zero(&p->zero); + + if ((s = bc_num_init(&p->one, BC_NUM_DEF_SIZE))) goto one_err; + bc_num_one(&p->one); + + if ((s = bc_vec_init(&p->funcs, sizeof(BcFunc), bc_func_free))) goto func_err; + + s = bc_veco_init(&p->func_map, sizeof(BcEntry), bc_entry_free, bc_entry_cmp); + if (s) goto func_map_err; + + if (!(main_name = malloc(sizeof(bc_lang_func_main)))) { + s = BC_STATUS_MALLOC_FAIL; + goto name_err; + } + + strcpy(main_name, bc_lang_func_main); + s = bc_program_addFunc(p, main_name, &idx); + main_name = NULL; + if (s || idx != BC_PROGRAM_MAIN) goto read_err; + + if (!(read_name = malloc(sizeof(bc_lang_func_read)))) { + s = BC_STATUS_MALLOC_FAIL; + goto read_err; + } + + strcpy(read_name, bc_lang_func_read); + s = bc_program_addFunc(p, read_name, &idx); + read_name = NULL; + if (s || idx != BC_PROGRAM_READ) goto var_err; + + if ((s = bc_vec_init(&p->vars, sizeof(BcNum), bc_num_free))) goto var_err; + s = bc_veco_init(&p->var_map, sizeof(BcEntry), bc_entry_free, bc_entry_cmp); + if (s) goto var_map_err; + + if ((s = bc_vec_init(&p->arrays, sizeof(BcVec), bc_vec_free))) goto array_err; + s = bc_veco_init(&p->array_map, sizeof(BcEntry), bc_entry_free, bc_entry_cmp); + if (s) goto array_map_err; + + s = bc_vec_init(&p->strings, sizeof(char*), bc_string_free); + if (s) goto string_err; + + s = bc_vec_init(&p->constants, sizeof(char*), bc_string_free); + if (s) goto const_err; + + s = bc_vec_init(&p->results, sizeof(BcResult), bc_result_free); + if (s) goto expr_err; + + if ((s = bc_vec_init(&p->stack, sizeof(BcInstPtr), NULL))) goto stack_err; + + memset(&ip, 0, sizeof(BcInstPtr)); + + if ((s = bc_vec_push(&p->stack, &ip))) goto push_err; + + return s; + +push_err: + bc_vec_free(&p->stack); +stack_err: + bc_vec_free(&p->results); +expr_err: + bc_vec_free(&p->constants); +const_err: + bc_vec_free(&p->strings); +string_err: + bc_veco_free(&p->array_map); +array_map_err: + bc_vec_free(&p->arrays); +array_err: + bc_veco_free(&p->var_map); +var_map_err: + bc_vec_free(&p->vars); +var_err: + if (read_name) free(read_name); +read_err: + if (main_name) free(main_name); +name_err: + bc_veco_free(&p->func_map); +func_map_err: + bc_vec_free(&p->funcs); +func_err: + bc_num_free(&p->one); +one_err: + bc_num_free(&p->zero); +zero_err: + bc_num_free(&p->last); +last_err: + bc_num_free(&p->obase); +obase_err: + bc_num_free(&p->ibase); + return s; +} + +BcStatus bc_program_addFunc(BcProgram *p, char *name, size_t *idx) { + + BcStatus status; + BcEntry entry, *entry_ptr; + BcFunc f; + + entry.name = name; + entry.idx = p->funcs.len; + + if ((status = bc_veco_insert(&p->func_map, &entry, idx))) { + free(name); + if (status != BC_STATUS_VEC_ITEM_EXISTS) return status; + } + + entry_ptr = bc_veco_item(&p->func_map, *idx); + *idx = entry_ptr->idx; + + if (status == BC_STATUS_VEC_ITEM_EXISTS) { + + BcFunc *func = bc_vec_item(&p->funcs, entry_ptr->idx); + + status = BC_STATUS_SUCCESS; + + // We need to reset these, so the function can be repopulated. + func->nparams = 0; + bc_vec_npop(&func->autos, func->autos.len); + bc_vec_npop(&func->code, func->code.len); + bc_vec_npop(&func->labels, func->labels.len); + } + else { + if ((status = bc_func_init(&f))) return status; + if ((status = bc_vec_push(&p->funcs, &f))) bc_func_free(&f); + } + + return status; +} + +BcStatus bc_program_reset(BcProgram *p, BcStatus status) { + + BcFunc *func; + BcInstPtr *ip; + + bc_vec_npop(&p->stack, p->stack.len - 1); + bc_vec_npop(&p->results, p->results.len); + + func = bc_vec_item(&p->funcs, 0); + ip = bc_vec_top(&p->stack); + ip->idx = func->code.len; + + if (!status && TT.signe && !TT.tty) return BC_STATUS_QUIT; + + TT.sigc += TT.signe; + TT.signe = TT.sig != TT.sigc; + + if ((!status || status == BC_STATUS_EXEC_SIGNAL) && TT.tty) { + status = BC_STATUS_SUCCESS; + fprintf(stderr, "%s", bc_program_ready_prompt); + fflush(stderr); + } + + return status; +} + +BcStatus bc_program_exec(BcProgram *p) { + + BcStatus status; + uint8_t *code; + size_t idx, len, *addr; + BcResult result; + BcResult *ptr; + BcNum *num; + BcFunc *func; + BcInstPtr *ip; + int cond; + const char **string, *s; + + status = BC_STATUS_SUCCESS; + cond = 0; + + ip = bc_vec_top(&p->stack); + func = bc_vec_item(&p->funcs, ip->func); + code = func->code.array; + + while (!status && !TT.sig_other && ip->idx < func->code.len) { + + uint8_t inst = code[(ip->idx)++]; + + switch (inst) { + + case BC_INST_CALL: + { + status = bc_program_call(p, code, &ip->idx); + break; + } + + case BC_INST_RETURN: + case BC_INST_RETURN_ZERO: + { + status = bc_program_return(p, inst); + break; + } + + case BC_INST_READ: + { + status = bc_program_read(p); + break; + } + + case BC_INST_JUMP_ZERO: + { + if ((status = bc_program_unaryOpPrep(p, &ptr, &num))) return status; + cond = !bc_num_cmp(num, &p->zero); + bc_vec_pop(&p->results); + } + // Fallthrough. + case BC_INST_JUMP: + { + idx = bc_program_index(code, &ip->idx); + addr = bc_vec_item(&func->labels, idx); + if (inst == BC_INST_JUMP || cond) ip->idx = *addr; + break; + } + + case BC_INST_PUSH_VAR: + case BC_INST_PUSH_ARRAY_ELEM: + { + status = bc_program_push(p, code, &ip->idx, inst == BC_INST_PUSH_VAR); + break; + } + + case BC_INST_PUSH_LAST: + { + result.type = BC_RESULT_LAST; + status = bc_vec_push(&p->results, &result); + break; + } + + case BC_INST_PUSH_SCALE: + { + status = bc_program_pushScale(p); + break; + } + + case BC_INST_PUSH_IBASE: + { + result.type = BC_RESULT_IBASE; + status = bc_vec_push(&p->results, &result); + break; + } + + case BC_INST_PUSH_OBASE: + { + result.type = BC_RESULT_OBASE; + status = bc_vec_push(&p->results, &result); + break; + } + + case BC_INST_SCALE_FUNC: + case BC_INST_LENGTH: + case BC_INST_SQRT: + { + status = bc_program_builtin(p, inst); + break; + } + + case BC_INST_PUSH_NUM: + { + result.type = BC_RESULT_CONSTANT; + result.data.id.idx = bc_program_index(code, &ip->idx); + status = bc_vec_push(&p->results, &result); + break; + } + + case BC_INST_POP: + { + bc_vec_pop(&p->results); + break; + } + + case BC_INST_INC_POST: + case BC_INST_DEC_POST: + case BC_INST_INC_PRE: + case BC_INST_DEC_PRE: + { + status = bc_program_incdec(p, inst); + break; + } + + case BC_INST_HALT: + { + status = BC_STATUS_QUIT; + break; + } + + case BC_INST_PRINT: + case BC_INST_PRINT_EXPR: + { + if ((status = bc_program_unaryOpPrep(p, &ptr, &num))) return status; + + status = bc_num_print(num, &p->obase, p->obase_t, inst == BC_INST_PRINT, + &p->nchars, p->line_len); + if (status) return status; + if ((status = bc_num_copy(&p->last, num))) return status; + + bc_vec_pop(&p->results); + + break; + } + + case BC_INST_STR: + { + idx = bc_program_index(code, &ip->idx); + string = bc_vec_item(&p->strings, idx); + + s = *string; + len = strlen(s); + + for (idx = 0; idx < len; ++idx) { + char c = s[idx]; + if (putchar(c) == EOF) return BC_STATUS_IO_ERR; + if (c == '\n') p->nchars = SIZE_MAX; + ++p->nchars; + } + + break; + } + + case BC_INST_PRINT_STR: + { + idx = bc_program_index(code, &ip->idx); + string = bc_vec_item(&p->strings, idx); + status = bc_program_printString(*string, &p->nchars); + break; + } + + case BC_INST_POWER: + case BC_INST_MULTIPLY: + case BC_INST_DIVIDE: + case BC_INST_MODULUS: + case BC_INST_PLUS: + case BC_INST_MINUS: + { + status = bc_program_op(p, inst); + break; + } + + case BC_INST_REL_EQ: + case BC_INST_REL_LE: + case BC_INST_REL_GE: + case BC_INST_REL_NE: + case BC_INST_REL_LT: + case BC_INST_REL_GT: + { + status = bc_program_logical(p, inst); + break; + } + + case BC_INST_BOOL_NOT: + { + if ((status = bc_program_unaryOpPrep(p, &ptr, &num))) return status; + status = bc_num_init(&result.data.num, BC_NUM_DEF_SIZE); + if (status) return status; + + if (bc_num_cmp(num, &p->zero)) bc_num_one(&result.data.num); + else bc_num_zero(&result.data.num); + + status = bc_program_unaryOpRetire(p, &result, BC_RESULT_TEMP); + if (status) bc_num_free(&result.data.num); + + break; + } + + case BC_INST_BOOL_OR: + case BC_INST_BOOL_AND: + { + status = bc_program_logical(p, inst); + break; + } + + case BC_INST_NEG: + { + status = bc_program_negate(p); + break; + } + + case BC_INST_ASSIGN_POWER: + case BC_INST_ASSIGN_MULTIPLY: + case BC_INST_ASSIGN_DIVIDE: + case BC_INST_ASSIGN_MODULUS: + case BC_INST_ASSIGN_PLUS: + case BC_INST_ASSIGN_MINUS: + case BC_INST_ASSIGN: + { + status = bc_program_assign(p, inst); + break; + } + + default: + { + break; + } + } + + if ((status && status != BC_STATUS_QUIT) || TT.signe) + status = bc_program_reset(p, status); + + // We need to update because if the stack changes, pointers may be invalid. + ip = bc_vec_top(&p->stack); + func = bc_vec_item(&p->funcs, ip->func); + code = func->code.array; + } + + return status; +} + +void bc_program_free(BcProgram *p) { + + if (!p) return; + + bc_num_free(&p->ibase); + bc_num_free(&p->obase); + + bc_vec_free(&p->funcs); + bc_veco_free(&p->func_map); + + bc_vec_free(&p->vars); + bc_veco_free(&p->var_map); + + bc_vec_free(&p->arrays); + bc_veco_free(&p->array_map); + + bc_vec_free(&p->strings); + bc_vec_free(&p->constants); + + bc_vec_free(&p->results); + bc_vec_free(&p->stack); + + bc_num_free(&p->last); + bc_num_free(&p->zero); + bc_num_free(&p->one); + + memset(p, 0, sizeof(BcProgram)); +} + +void bc_sig(int sig) { + if (sig == SIGINT) { + if (write(2, bc_sig_msg, sizeof(bc_sig_msg) - 1) >= 0) + TT.sig += (TT.signe = TT.sig == TT.sigc); + } + else TT.sig_other = 1; +} + +BcStatus bc_error(BcStatus s) { + if (!s || s >= BC_STATUS_POSIX_NAME_LEN) return BC_STATUS_SUCCESS; + fprintf(stderr, bc_err_fmt, bc_errs[bc_err_indices[s]], bc_err_descs[s]); + return s * !TT.tty; +} + +BcStatus bc_error_file(BcStatus s, const char *file, size_t line) { + if (!s || !file || s >= BC_STATUS_POSIX_NAME_LEN) return BC_STATUS_SUCCESS; + fprintf(stderr, bc_err_fmt, bc_errs[bc_err_indices[s]], bc_err_descs[s]); + fprintf(stderr, " %s", file); + fprintf(stderr, &":%d\n\n"[3 * !line], line); + return s * !TT.tty; +} + +BcStatus bc_posix_error(BcStatus s, const char *file, + size_t line, const char *msg) +{ + int p = (int) (toys.optflags & FLAG_s), w = (int) (toys.optflags & FLAG_w); + + if (!(p || w) || s < BC_STATUS_POSIX_NAME_LEN || !file) + return BC_STATUS_SUCCESS; + + fprintf(stderr, "\n%s %s: %s\n", bc_errs[bc_err_indices[s]], + p ? "error" : "warning", bc_err_descs[s]); + + if (msg) fprintf(stderr, " %s\n", msg); + fprintf(stderr, " %s", file); + fprintf(stderr, &":%d\n\n"[3 * !line], line); + + return s * !!p; +} + +BcStatus bc_process(Bc *bc, const char *text) { + + BcStatus s = bc_lex_text(&bc->parse.lex, text); + + if (s && (s = bc_error_file(s, bc->parse.lex.file, bc->parse.lex.line))) + return s; + + while (bc->parse.lex.token.type != BC_LEX_EOF) { + + if ((s = bc_parse_parse(&bc->parse)) == BC_STATUS_LIMITS) { + + s = BC_STATUS_IO_ERR; + + if (putchar('\n') == EOF) return s; + + if (printf("BC_BASE_MAX = %zu\n", (size_t) maxof_BASE) < 0 || + printf("BC_DIM_MAX = %zu\n", (size_t) maxof_DIM) < 0 || + printf("BC_SCALE_MAX = %zu\n", (size_t) maxof_SCALE) < 0 || + printf("BC_STRING_MAX = %zu\n", (size_t) maxof_STRING) < 0 || + printf("Max Exponent = %ld\n", (long) LONG_MAX) < 0 || + printf("Number of Vars = %zu\n", (size_t) SIZE_MAX) < 0) + { + return s; + } + + if (putchar('\n') == EOF) return s; + } + else if (s == BC_STATUS_QUIT || TT.sig_other || + (s && (s = bc_error_file(s, bc->parse.lex.file, bc->parse.lex.line)))) + { + return s; + } + } + + if (BC_PARSE_CAN_EXEC(&bc->parse)) { + s = bc_program_exec(&bc->prog); + if (TT.tty) fflush(stdout); + if (s && s != BC_STATUS_QUIT) s = bc_error(s); + } + + return s; +} + +BcStatus bc_file(Bc *bc, const char *file) { + + BcStatus s; + char *data; + BcFunc *main_func; + BcInstPtr *ip; + + bc->prog.file = file; + if ((s = bc_io_fread(file, &data))) return s; + + bc_lex_init(&bc->parse.lex, file); + if ((s = bc_process(bc, data))) goto err; + + main_func = bc_vec_item(&bc->prog.funcs, BC_PROGRAM_MAIN); + ip = bc_vec_item(&bc->prog.stack, 0); + + if (main_func->code.len > ip->idx) s = BC_STATUS_EXEC_FILE_NOT_EXECUTABLE; + +err: + free(data); + return s; +} + +BcStatus bc_concat(char **buffer, size_t *n, char *buf, size_t total_len) { + + if (total_len > *n) { + + char *temp = realloc(*buffer, total_len + 1); + if (!temp) return BC_STATUS_MALLOC_FAIL; + + *buffer = temp; + *n = total_len; + } + + strcat(*buffer, buf); + + return BC_STATUS_SUCCESS; +} + +BcStatus bc_stdin(Bc *bc) { + + BcStatus s; + char *buf, *buffer, c; + size_t n, bufn, slen, total_len, len, i; + int string, comment, notend; + + bc->prog.file = bc_program_stdin_name; + bc_lex_init(&bc->parse.lex, bc_program_stdin_name); + + n = bufn = BC_BUF_SIZE; + + if (!(buffer = malloc(BC_BUF_SIZE + 1))) return BC_STATUS_MALLOC_FAIL; + + if (!(buf = malloc(BC_BUF_SIZE + 1))) { + s = BC_STATUS_MALLOC_FAIL; + goto buf_err; + } + + buffer[0] = '\0'; + string = comment = 0; + s = BC_STATUS_SUCCESS; + + // The following loop is complex because the vm tries not to send any lines + // that end with a backslash to the parser. The reason for that is because the + // parser treats a backslash+newline combo as whitespace, per the bc spec. In + // that case, and for strings and comments, the parser will expect more stuff. + while ((!s || s != BC_STATUS_QUIT) && + !((s = bc_io_getline(&buf, &bufn)) && s != BC_STATUS_BINARY_FILE)) + { + if (s == BC_STATUS_BINARY_FILE) { + putchar('\a'); + s = BC_STATUS_SUCCESS; + continue; + } + + len = strlen(buf); + slen = strlen(buffer); + total_len = slen + len; + + if (len == 1 && buf[0] == '"') string = !string; + else if (len > 1 || comment) { + + for (i = 0; i < len; ++i) { + + notend = len > i + 1; + + if ((c = buf[i]) == '"') string = !string; + else if (c == '/' && notend && !comment && buf[i + 1] == '*') { + comment = 1; + break; + } + else if (c == '*' && notend && comment && buf[i + 1] == '/') + comment = 0; + } + + if (string || comment || buf[len - 2] == '\\') { + if ((s = bc_concat(&buffer, &n, buf, total_len))) goto exit_err; + continue; + } + } + + if ((s = bc_concat(&buffer, &n, buf, total_len))) goto exit_err; + + s = bc_process(bc, buffer); + buffer[0] = '\0'; + } + + // I/O error will always happen when stdin is + // closed. It's not a problem in that case. + s = s == BC_STATUS_IO_ERR ? BC_STATUS_SUCCESS : s; + +exit_err: + free(buf); +buf_err: + free(buffer); + return s; +} + +void bc_main(void) { + + BcStatus status; + Bc bc; + struct sigaction sa; + size_t i, len; + char *lenv; + int num; + + TT.tty = (toys.optflags & FLAG_i) || (isatty(0) && isatty(1)); + + if ((lenv = getenv("BC_LINE_LENGTH"))) { + len = strlen(lenv); + for (num = 1, i = 0; num && i < len; ++i) num = isdigit(lenv[i]); + if (!num || (len = (size_t) atoi(lenv) - 1) < 2) len = BC_NUM_PRINT_WIDTH; + } + else len = BC_NUM_PRINT_WIDTH; + + if ((toys.exitval = bc_program_init(&bc.prog, len))) return; + if ((status = bc_parse_init(&bc.parse, &bc.prog))) goto parse_err; + + sigemptyset(&sa.sa_mask); + sa.sa_handler = bc_sig; + sa.sa_flags = 0; + + if (sigaction(SIGINT, &sa, NULL) < 0 || sigaction(SIGPIPE, &sa, NULL) < 0 || + sigaction(SIGHUP, &sa, NULL) < 0 || sigaction(SIGTERM, &sa, NULL) < 0) + { + status = BC_STATUS_EXEC_SIGACTION_FAIL; + goto err; + } + + if (TT.tty && !(toys.optflags & FLAG_q) && printf("%s", bc_header) < 0) { + status = BC_STATUS_IO_ERR; + goto err; + } + + if (toys.optflags & FLAG_l) { + + bc_lex_init(&bc.parse.lex, bc_lib_name); + if ((status = bc_lex_text(&bc.parse.lex, bc_lib))) goto err; + + while (!status && bc.parse.lex.token.type != BC_LEX_EOF) + status = bc_parse_parse(&bc.parse); + + if (status || (status = bc_program_exec(&bc.prog))) goto err; + } + + for (i = 0; !TT.sig_other && !status && i < toys.optc; ++i) + status = bc_file(&bc, toys.optargs[i]); + if (status || TT.sig_other) goto err; + + status = bc_stdin(&bc); + +err: + if (CFG_TOYBOX_FREE) bc_parse_free(&bc.parse); +parse_err: + bc_program_free(&bc.prog); + toys.exitval = status == BC_STATUS_QUIT ? BC_STATUS_SUCCESS : status; +} -- cgit v1.2.3