| /* vi: set sw=4 ts=4: */ |
| /* |
| * Licensed under GPLv2 or later, see file LICENSE in this source tree. |
| * Adapted from https://github.com/gavinhoward/bc |
| * Original code copyright (c) 2018 Gavin D. Howard and contributors. |
| */ |
| //config:config BC |
| //config: bool "bc (45 kb)" |
| //config: default y |
| //config: select FEATURE_DC_BIG |
| //config: help |
| //config: bc is a command-line, arbitrary-precision calculator with a |
| //config: Turing-complete language. See the GNU bc manual |
| //config: (https://www.gnu.org/software/bc/manual/bc.html) and bc spec |
| //config: (http://pubs.opengroup.org/onlinepubs/9699919799/utilities/bc.html). |
| //config: |
| //config: This bc has five differences to the GNU bc: |
| //config: 1) The period (.) is a shortcut for "last", as in the BSD bc. |
| //config: 2) Arrays are copied before being passed as arguments to |
| //config: functions. This behavior is required by the bc spec. |
| //config: 3) Arrays can be passed to the builtin "length" function to get |
| //config: the number of elements in the array. This prints "1": |
| //config: a[0] = 0; length(a[]) |
| //config: 4) The precedence of the boolean "not" operator (!) is equal to |
| //config: that of the unary minus (-) negation operator. This still |
| //config: allows POSIX-compliant scripts to work while somewhat |
| //config: preserving expected behavior (versus C) and making parsing |
| //config: easier. |
| //config: 5) "read()" accepts expressions, not only numeric literals. |
| //config: |
| //config:config DC |
| //config: bool "dc (36 kb)" |
| //config: default y |
| //config: help |
| //config: dc is a reverse-polish notation command-line calculator which |
| //config: supports unlimited precision arithmetic. See the FreeBSD man page |
| //config: (https://www.unix.com/man-page/FreeBSD/1/dc/) and GNU dc manual |
| //config: (https://www.gnu.org/software/bc/manual/dc-1.05/html_mono/dc.html). |
| //config: |
| //config: This dc has a few differences from the two above: |
| //config: 1) When printing a byte stream (command "P"), this dc follows what |
| //config: the FreeBSD dc does. |
| //config: 2) Implements the GNU extensions for divmod ("~") and |
| //config: modular exponentiation ("|"). |
| //config: 3) Implements all FreeBSD extensions, except for "J" and "M". |
| //config: 4) Like the FreeBSD dc, this dc supports extended registers. |
| //config: However, they are implemented differently. When it encounters |
| //config: whitespace where a register should be, it skips the whitespace. |
| //config: If the character following is not a lowercase letter, an error |
| //config: is issued. Otherwise, the register name is parsed by the |
| //config: following regex: [a-z][a-z0-9_]* |
| //config: This generally means that register names will be surrounded by |
| //config: whitespace. Examples: |
| //config: l idx s temp L index S temp2 < do_thing |
| //config: Also note that, like the FreeBSD dc, extended registers are not |
| //config: allowed unless the "-x" option is given. |
| //config: |
| //config:if BC || DC # for menuconfig indenting |
| //config: |
| //config:config FEATURE_DC_BIG |
| //config: bool "Use bc code base for dc (larger, more features)" |
| //config: default y |
| //config: |
| //config:config FEATURE_DC_LIBM |
| //config: bool "Enable power and exp functions (requires libm)" |
| //config: default y |
| //config: depends on DC && !BC && !FEATURE_DC_BIG |
| //config: help |
| //config: Enable power and exp functions. |
| //config: NOTE: This will require libm to be present for linking. |
| //config: |
| //config:config FEATURE_BC_INTERACTIVE |
| //config: bool "Interactive mode (+4kb)" |
| //config: default y |
| //config: depends on BC || (DC && FEATURE_DC_BIG) |
| //config: help |
| //config: Enable interactive mode: when started on a tty, |
| //config: ^C interrupts execution and returns to command line, |
| //config: errors also return to command line instead of exiting, |
| //config: line editing with history is available. |
| //config: |
| //config: With this option off, input can still be taken from tty, |
| //config: but all errors are fatal, ^C is fatal, |
| //config: tty is treated exactly the same as any other |
| //config: standard input (IOW: no line editing). |
| //config: |
| //config:config FEATURE_BC_LONG_OPTIONS |
| //config: bool "Enable bc/dc long options" |
| //config: default y |
| //config: depends on BC || (DC && FEATURE_DC_BIG) |
| //config: |
| //config:endif |
| |
| //applet:IF_BC(APPLET(bc, BB_DIR_USR_BIN, BB_SUID_DROP)) |
| //applet:IF_DC(APPLET(dc, BB_DIR_USR_BIN, BB_SUID_DROP)) |
| |
| //kbuild:lib-$(CONFIG_BC) += bc.o |
| //kbuild:lib-$(CONFIG_DC) += bc.o |
| |
| //See www.gnu.org/software/bc/manual/bc.html |
| //usage:#define bc_trivial_usage |
| //usage: "[-sqlw] FILE..." |
| //usage: |
| //usage:#define bc_full_usage "\n" |
| //usage: "\nArbitrary precision calculator" |
| //usage: "\n" |
| ///////: "\n -i Interactive" - has no effect for now |
| //usage: "\n -q Quiet" |
| //usage: "\n -l Load standard math library" |
| //usage: "\n -s Be POSIX compatible" |
| //usage: "\n -w Warn if extensions are used" |
| ///////: "\n -v Version" |
| //usage: "\n" |
| //usage: "\n$BC_LINE_LENGTH changes output width" |
| //usage: |
| //usage:#define bc_example_usage |
| //usage: "3 + 4.129\n" |
| //usage: "1903 - 2893\n" |
| //usage: "-129 * 213.28935\n" |
| //usage: "12 / -1932\n" |
| //usage: "12 % 12\n" |
| //usage: "34 ^ 189\n" |
| //usage: "scale = 13\n" |
| //usage: "ibase = 2\n" |
| //usage: "obase = A\n" |
| //usage: |
| //usage:#define dc_trivial_usage |
| //usage: IF_FEATURE_DC_BIG("[-x] ")"[-eSCRIPT]... [-fFILE]... [FILE]..." |
| //usage: |
| //usage:#define dc_full_usage "\n" |
| //usage: "\nTiny RPN calculator. Operations:" |
| //usage: "\n+, -, *, /, %, ~, ^," IF_FEATURE_DC_BIG(" |,") |
| //usage: "\np - print top of the stack without popping" |
| //usage: "\nf - print entire stack" |
| //usage: "\nk - pop the value and set the precision" |
| //usage: "\ni - pop the value and set input radix" |
| //usage: "\no - pop the value and set output radix" |
| //usage: "\nExamples: dc -e'2 2 + p' -> 4, dc -e'8 8 * 2 2 + / p' -> 16" |
| //usage: |
| //usage:#define dc_example_usage |
| //usage: "$ dc -e'2 2 + p'\n" |
| //usage: "4\n" |
| //usage: "$ dc -e'8 8 \\* 2 2 + / p'\n" |
| //usage: "16\n" |
| //usage: "$ dc -e'0 1 & p'\n" |
| //usage: "0\n" |
| //usage: "$ dc -e'0 1 | p'\n" |
| //usage: "1\n" |
| //usage: "$ echo '72 9 / 8 * p' | dc\n" |
| //usage: "64\n" |
| |
| #include "libbb.h" |
| #include "common_bufsiz.h" |
| |
| #if !ENABLE_BC && !ENABLE_FEATURE_DC_BIG |
| # include "dc.c" |
| #else |
| |
| #define DEBUG_LEXER 0 |
| #define DEBUG_COMPILE 0 |
| #define DEBUG_EXEC 0 |
| // This can be left enabled for production as well: |
| #define SANITY_CHECKS 1 |
| |
| #if DEBUG_LEXER |
| static uint8_t lex_indent; |
| #define dbg_lex(...) \ |
| do { \ |
| fprintf(stderr, "%*s", lex_indent, ""); \ |
| bb_error_msg(__VA_ARGS__); \ |
| } while (0) |
| #define dbg_lex_enter(...) \ |
| do { \ |
| dbg_lex(__VA_ARGS__); \ |
| lex_indent++; \ |
| } while (0) |
| #define dbg_lex_done(...) \ |
| do { \ |
| lex_indent--; \ |
| dbg_lex(__VA_ARGS__); \ |
| } while (0) |
| #else |
| # define dbg_lex(...) ((void)0) |
| # define dbg_lex_enter(...) ((void)0) |
| # define dbg_lex_done(...) ((void)0) |
| #endif |
| |
| #if DEBUG_COMPILE |
| # define dbg_compile(...) bb_error_msg(__VA_ARGS__) |
| #else |
| # define dbg_compile(...) ((void)0) |
| #endif |
| |
| #if DEBUG_EXEC |
| # define dbg_exec(...) bb_error_msg(__VA_ARGS__) |
| #else |
| # define dbg_exec(...) ((void)0) |
| #endif |
| |
| typedef enum BcStatus { |
| BC_STATUS_SUCCESS = 0, |
| BC_STATUS_FAILURE = 1, |
| BC_STATUS_PARSE_EMPTY_EXP = 2, // bc_parse_expr_empty_ok() uses this |
| } BcStatus; |
| |
| #define BC_VEC_INVALID_IDX ((size_t) -1) |
| #define BC_VEC_START_CAP (1 << 5) |
| |
| typedef void (*BcVecFree)(void *) FAST_FUNC; |
| |
| typedef struct BcVec { |
| char *v; |
| size_t len; |
| size_t cap; |
| size_t size; |
| BcVecFree dtor; |
| } BcVec; |
| |
| typedef signed char BcDig; |
| |
| typedef struct BcNum { |
| BcDig *restrict num; |
| size_t rdx; |
| size_t len; |
| size_t cap; |
| bool neg; |
| } BcNum; |
| |
| #define BC_NUM_MAX_IBASE ((unsigned long) 16) |
| // larger value might speed up BIGNUM calculations a bit: |
| #define BC_NUM_DEF_SIZE (16) |
| #define BC_NUM_PRINT_WIDTH (69) |
| |
| #define BC_NUM_KARATSUBA_LEN (32) |
| |
| typedef enum BcInst { |
| #if ENABLE_BC |
| BC_INST_INC_PRE, |
| BC_INST_DEC_PRE, |
| BC_INST_INC_POST, |
| BC_INST_DEC_POST, |
| #endif |
| XC_INST_NEG, // order |
| |
| XC_INST_REL_EQ, // should |
| XC_INST_REL_LE, // match |
| XC_INST_REL_GE, // LEX |
| XC_INST_REL_NE, // constants |
| XC_INST_REL_LT, // for |
| XC_INST_REL_GT, // these |
| |
| XC_INST_POWER, // operations |
| XC_INST_MULTIPLY, // | |
| XC_INST_DIVIDE, // | |
| XC_INST_MODULUS, // | |
| XC_INST_PLUS, // | |
| XC_INST_MINUS, // | |
| |
| XC_INST_BOOL_NOT, // | |
| XC_INST_BOOL_OR, // | |
| XC_INST_BOOL_AND, // | |
| #if ENABLE_BC |
| BC_INST_ASSIGN_POWER, // | |
| BC_INST_ASSIGN_MULTIPLY,// | |
| BC_INST_ASSIGN_DIVIDE, // | |
| BC_INST_ASSIGN_MODULUS, // | |
| BC_INST_ASSIGN_PLUS, // | |
| BC_INST_ASSIGN_MINUS, // | |
| #endif |
| XC_INST_ASSIGN, // V |
| |
| XC_INST_NUM, |
| XC_INST_VAR, |
| XC_INST_ARRAY_ELEM, |
| XC_INST_ARRAY, |
| XC_INST_SCALE_FUNC, |
| |
| XC_INST_IBASE, // order of these constans should match other enums |
| XC_INST_OBASE, // order of these constans should match other enums |
| XC_INST_SCALE, // order of these constans should match other enums |
| IF_BC(BC_INST_LAST,) // order of these constans should match other enums |
| XC_INST_LENGTH, |
| XC_INST_READ, |
| XC_INST_SQRT, |
| |
| XC_INST_PRINT, |
| XC_INST_PRINT_POP, |
| XC_INST_STR, |
| XC_INST_PRINT_STR, |
| |
| #if ENABLE_BC |
| BC_INST_HALT, |
| BC_INST_JUMP, |
| BC_INST_JUMP_ZERO, |
| |
| BC_INST_CALL, |
| BC_INST_RET0, |
| #endif |
| XC_INST_RET, |
| |
| XC_INST_POP, |
| #if ENABLE_DC |
| DC_INST_POP_EXEC, |
| |
| DC_INST_MODEXP, |
| DC_INST_DIVMOD, |
| |
| DC_INST_EXECUTE, |
| DC_INST_EXEC_COND, |
| |
| DC_INST_ASCIIFY, |
| DC_INST_PRINT_STREAM, |
| |
| DC_INST_PRINT_STACK, |
| DC_INST_CLEAR_STACK, |
| DC_INST_STACK_LEN, |
| DC_INST_DUPLICATE, |
| DC_INST_SWAP, |
| |
| DC_INST_LOAD, |
| DC_INST_PUSH_VAR, |
| DC_INST_PUSH_TO_VAR, |
| |
| DC_INST_QUIT, |
| DC_INST_NQUIT, |
| |
| DC_INST_INVALID = -1, |
| #endif |
| } BcInst; |
| |
| typedef struct BcId { |
| char *name; |
| size_t idx; |
| } BcId; |
| |
| typedef struct BcFunc { |
| BcVec code; |
| IF_BC(BcVec labels;) |
| IF_BC(BcVec autos;) |
| IF_BC(BcVec strs;) |
| IF_BC(BcVec consts;) |
| IF_BC(size_t nparams;) |
| } BcFunc; |
| |
| typedef enum BcResultType { |
| XC_RESULT_TEMP, |
| |
| XC_RESULT_VAR, |
| XC_RESULT_ARRAY_ELEM, |
| XC_RESULT_ARRAY, |
| |
| XC_RESULT_STR, |
| |
| //code uses "inst - XC_INST_IBASE + XC_RESULT_IBASE" construct, |
| XC_RESULT_IBASE, // relative order should match for: XC_INST_IBASE |
| XC_RESULT_OBASE, // relative order should match for: XC_INST_OBASE |
| XC_RESULT_SCALE, // relative order should match for: XC_INST_SCALE |
| IF_BC(BC_RESULT_LAST,) // relative order should match for: BC_INST_LAST |
| XC_RESULT_CONSTANT, |
| IF_BC(BC_RESULT_ONE,) |
| } BcResultType; |
| |
| typedef union BcResultData { |
| BcNum n; |
| BcVec v; |
| BcId id; |
| } BcResultData; |
| |
| typedef struct BcResult { |
| BcResultType t; |
| BcResultData d; |
| } BcResult; |
| |
| typedef struct BcInstPtr { |
| size_t func; |
| size_t inst_idx; |
| IF_BC(size_t results_len_before_call;) |
| } BcInstPtr; |
| |
| typedef enum BcLexType { |
| XC_LEX_EOF, |
| XC_LEX_INVALID, |
| |
| XC_LEX_NLINE, |
| XC_LEX_WHITESPACE, |
| XC_LEX_STR, |
| XC_LEX_NAME, |
| XC_LEX_NUMBER, |
| |
| XC_LEX_1st_op, |
| XC_LEX_NEG = XC_LEX_1st_op, // order |
| |
| XC_LEX_OP_REL_EQ, // should |
| XC_LEX_OP_REL_LE, // match |
| XC_LEX_OP_REL_GE, // INST |
| XC_LEX_OP_REL_NE, // constants |
| XC_LEX_OP_REL_LT, // for |
| XC_LEX_OP_REL_GT, // these |
| |
| XC_LEX_OP_POWER, // operations |
| XC_LEX_OP_MULTIPLY, // | |
| XC_LEX_OP_DIVIDE, // | |
| XC_LEX_OP_MODULUS, // | |
| XC_LEX_OP_PLUS, // | |
| XC_LEX_OP_MINUS, // | |
| XC_LEX_OP_last = XC_LEX_OP_MINUS, |
| #if ENABLE_BC |
| 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, // V |
| |
| BC_LEX_OP_INC, |
| BC_LEX_OP_DEC, |
| |
| BC_LEX_LPAREN, // () are 0x28 and 0x29 |
| BC_LEX_RPAREN, // must be LPAREN+1: code uses (c - '(' + BC_LEX_LPAREN) |
| |
| BC_LEX_LBRACKET, // [] are 0x5B and 0x5D |
| BC_LEX_COMMA, |
| BC_LEX_RBRACKET, // must be LBRACKET+2: code uses (c - '[' + BC_LEX_LBRACKET) |
| |
| BC_LEX_LBRACE, // {} are 0x7B and 0x7D |
| BC_LEX_SCOLON, |
| BC_LEX_RBRACE, // must be LBRACE+2: code uses (c - '{' + BC_LEX_LBRACE) |
| |
| BC_LEX_KEY_1st_keyword, |
| BC_LEX_KEY_AUTO = BC_LEX_KEY_1st_keyword, |
| BC_LEX_KEY_BREAK, |
| BC_LEX_KEY_CONTINUE, |
| BC_LEX_KEY_DEFINE, |
| BC_LEX_KEY_ELSE, |
| BC_LEX_KEY_FOR, |
| BC_LEX_KEY_HALT, |
| // code uses "type - BC_LEX_KEY_IBASE + XC_INST_IBASE" construct, |
| BC_LEX_KEY_IBASE, // relative order should match for: XC_INST_IBASE |
| BC_LEX_KEY_OBASE, // relative order should match for: XC_INST_OBASE |
| BC_LEX_KEY_IF, |
| IF_BC(BC_LEX_KEY_LAST,) // relative order should match for: BC_INST_LAST |
| BC_LEX_KEY_LENGTH, |
| BC_LEX_KEY_LIMITS, |
| 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, |
| #endif // ENABLE_BC |
| |
| #if ENABLE_DC |
| DC_LEX_OP_BOOL_NOT = XC_LEX_OP_last + 1, |
| DC_LEX_OP_ASSIGN, |
| |
| DC_LEX_LPAREN, |
| DC_LEX_SCOLON, |
| DC_LEX_READ, |
| DC_LEX_IBASE, |
| DC_LEX_SCALE, |
| DC_LEX_OBASE, |
| DC_LEX_LENGTH, |
| DC_LEX_PRINT, |
| DC_LEX_QUIT, |
| DC_LEX_SQRT, |
| DC_LEX_LBRACE, |
| |
| DC_LEX_EQ_NO_REG, |
| DC_LEX_OP_MODEXP, |
| DC_LEX_OP_DIVMOD, |
| |
| DC_LEX_COLON, |
| DC_LEX_ELSE, |
| DC_LEX_EXECUTE, |
| DC_LEX_PRINT_STACK, |
| DC_LEX_CLEAR_STACK, |
| DC_LEX_STACK_LEVEL, |
| DC_LEX_DUPLICATE, |
| DC_LEX_SWAP, |
| DC_LEX_POP, |
| |
| DC_LEX_ASCIIFY, |
| DC_LEX_PRINT_STREAM, |
| |
| // code uses "t - DC_LEX_STORE_IBASE + XC_INST_IBASE" construct, |
| DC_LEX_STORE_IBASE, // relative order should match for: XC_INST_IBASE |
| DC_LEX_STORE_OBASE, // relative order should match for: XC_INST_OBASE |
| DC_LEX_STORE_SCALE, // relative order should match for: XC_INST_SCALE |
| DC_LEX_LOAD, |
| DC_LEX_LOAD_POP, |
| DC_LEX_STORE_PUSH, |
| DC_LEX_PRINT_POP, |
| DC_LEX_NQUIT, |
| DC_LEX_SCALE_FACTOR, |
| #endif |
| } BcLexType; |
| // must match order of BC_LEX_KEY_foo etc above |
| #if ENABLE_BC |
| struct BcLexKeyword { |
| char name8[8]; |
| }; |
| #define LEX_KW_ENTRY(a, b) \ |
| { .name8 = a /*, .posix = b */ } |
| static const struct BcLexKeyword bc_lex_kws[20] = { |
| LEX_KW_ENTRY("auto" , 1), // 0 |
| LEX_KW_ENTRY("break" , 1), // 1 |
| LEX_KW_ENTRY("continue", 0), // 2 note: this one has no terminating NUL |
| LEX_KW_ENTRY("define" , 1), // 3 |
| LEX_KW_ENTRY("else" , 0), // 4 |
| LEX_KW_ENTRY("for" , 1), // 5 |
| LEX_KW_ENTRY("halt" , 0), // 6 |
| LEX_KW_ENTRY("ibase" , 1), // 7 |
| LEX_KW_ENTRY("obase" , 1), // 8 |
| LEX_KW_ENTRY("if" , 1), // 9 |
| LEX_KW_ENTRY("last" , 0), // 10 |
| LEX_KW_ENTRY("length" , 1), // 11 |
| LEX_KW_ENTRY("limits" , 0), // 12 |
| LEX_KW_ENTRY("print" , 0), // 13 |
| LEX_KW_ENTRY("quit" , 1), // 14 |
| LEX_KW_ENTRY("read" , 0), // 15 |
| LEX_KW_ENTRY("return" , 1), // 16 |
| LEX_KW_ENTRY("scale" , 1), // 17 |
| LEX_KW_ENTRY("sqrt" , 1), // 18 |
| LEX_KW_ENTRY("while" , 1), // 19 |
| }; |
| #undef LEX_KW_ENTRY |
| #define STRING_else (bc_lex_kws[4].name8) |
| #define STRING_for (bc_lex_kws[5].name8) |
| #define STRING_if (bc_lex_kws[9].name8) |
| #define STRING_while (bc_lex_kws[19].name8) |
| enum { |
| POSIX_KWORD_MASK = 0 |
| | (1 << 0) // 0 |
| | (1 << 1) // 1 |
| | (0 << 2) // 2 |
| | (1 << 3) // 3 |
| | (0 << 4) // 4 |
| | (1 << 5) // 5 |
| | (0 << 6) // 6 |
| | (1 << 7) // 7 |
| | (1 << 8) // 8 |
| | (1 << 9) // 9 |
| | (0 << 10) // 10 |
| | (1 << 11) // 11 |
| | (0 << 12) // 12 |
| | (0 << 13) // 13 |
| | (1 << 14) // 14 |
| | (0 << 15) // 15 |
| | (1 << 16) // 16 |
| | (1 << 17) // 17 |
| | (1 << 18) // 18 |
| | (1 << 19) // 19 |
| }; |
| #define keyword_is_POSIX(i) ((1 << (i)) & POSIX_KWORD_MASK) |
| |
| // This is a bit array that corresponds to token types. An entry is |
| // true if the token is valid in an expression, false otherwise. |
| // Used to figure out when expr parsing should stop *without error message* |
| // - 0 element indicates this condition. 1 means "this token is to be eaten |
| // as part of the expression", it can then still be determined to be invalid |
| // by later processing. |
| enum { |
| #define EXBITS(a,b,c,d,e,f,g,h) \ |
| ((uint64_t)((a << 0)+(b << 1)+(c << 2)+(d << 3)+(e << 4)+(f << 5)+(g << 6)+(h << 7))) |
| BC_PARSE_EXPRS_BITS = 0 // corresponding BC_LEX_xyz: |
| + (EXBITS(0,0,0,0,0,1,1,1) << (0*8)) // 0: EOF INVAL NL WS STR NAME NUM - |
| + (EXBITS(1,1,1,1,1,1,1,1) << (1*8)) // 8: == <= >= != < > ^ * |
| + (EXBITS(1,1,1,1,1,1,1,1) << (2*8)) // 16: / % + - ! || && ^= |
| + (EXBITS(1,1,1,1,1,1,1,1) << (3*8)) // 24: *= /= %= += -= = ++ -- |
| + (EXBITS(1,1,0,0,0,0,0,0) << (4*8)) // 32: ( ) [ , ] { ; } |
| + (EXBITS(0,0,0,0,0,0,0,1) << (5*8)) // 40: auto break cont define else for halt ibase |
| + (EXBITS(1,0,1,1,0,0,0,1) << (6*8)) // 48: obase if last length limits print quit read |
| + (EXBITS(0,1,1,0,0,0,0,0) << (7*8)) // 56: return scale sqrt while |
| #undef EXBITS |
| }; |
| static ALWAYS_INLINE long lex_allowed_in_bc_expr(unsigned i) |
| { |
| #if ULONG_MAX > 0xffffffff |
| // 64-bit version (will not work correctly for 32-bit longs!) |
| return BC_PARSE_EXPRS_BITS & (1UL << i); |
| #else |
| // 32-bit version |
| unsigned long m = (uint32_t)BC_PARSE_EXPRS_BITS; |
| if (i >= 32) { |
| m = (uint32_t)(BC_PARSE_EXPRS_BITS >> 32); |
| i &= 31; |
| } |
| return m & (1UL << i); |
| #endif |
| } |
| |
| // This is an array of data for operators that correspond to |
| // [XC_LEX_1st_op...] token types. |
| static const uint8_t bc_parse_ops[] ALIGN1 = { |
| #define OP(p,l) ((int)(l) * 0x10 + (p)) |
| OP(1, false), // neg |
| OP(6, true ), OP( 6, true ), OP( 6, true ), OP( 6, true ), OP( 6, true ), OP( 6, true ), // == <= >= != < > |
| OP(2, false), // pow |
| OP(3, true ), OP( 3, true ), OP( 3, true ), // mul div mod |
| OP(4, true ), OP( 4, true ), // + - |
| OP(1, false), // not |
| OP(7, true ), OP( 7, true ), // or and |
| OP(5, false), OP( 5, false ), OP( 5, false ), OP( 5, false ), OP( 5, false ), // ^= *= /= %= += |
| OP(5, false), OP( 5, false ), // -= = |
| OP(0, false), OP( 0, false ), // inc dec |
| #undef OP |
| }; |
| #define bc_parse_op_PREC(i) (bc_parse_ops[i] & 0x0f) |
| #define bc_parse_op_LEFT(i) (bc_parse_ops[i] & 0x10) |
| #endif // ENABLE_BC |
| |
| #if ENABLE_DC |
| static const //BcLexType - should be this type |
| uint8_t |
| dc_char_to_LEX[] ALIGN1 = { |
| // %&'( |
| XC_LEX_OP_MODULUS, XC_LEX_INVALID, XC_LEX_INVALID, DC_LEX_LPAREN, |
| // )*+, |
| XC_LEX_INVALID, XC_LEX_OP_MULTIPLY, XC_LEX_OP_PLUS, XC_LEX_INVALID, |
| // -./ |
| XC_LEX_OP_MINUS, XC_LEX_INVALID, XC_LEX_OP_DIVIDE, |
| // 0123456789 |
| XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, |
| XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, |
| XC_LEX_INVALID, XC_LEX_INVALID, |
| // :;<=>?@ |
| DC_LEX_COLON, DC_LEX_SCOLON, XC_LEX_OP_REL_GT, XC_LEX_OP_REL_EQ, |
| XC_LEX_OP_REL_LT, DC_LEX_READ, XC_LEX_INVALID, |
| // ABCDEFGH |
| XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, |
| XC_LEX_INVALID, XC_LEX_INVALID, DC_LEX_EQ_NO_REG, XC_LEX_INVALID, |
| // IJKLMNOP |
| DC_LEX_IBASE, XC_LEX_INVALID, DC_LEX_SCALE, DC_LEX_LOAD_POP, |
| XC_LEX_INVALID, DC_LEX_OP_BOOL_NOT, DC_LEX_OBASE, DC_LEX_PRINT_STREAM, |
| // QRSTUVWXY |
| DC_LEX_NQUIT, DC_LEX_POP, DC_LEX_STORE_PUSH, XC_LEX_INVALID, XC_LEX_INVALID, |
| XC_LEX_INVALID, XC_LEX_INVALID, DC_LEX_SCALE_FACTOR, XC_LEX_INVALID, |
| // Z[\] |
| DC_LEX_LENGTH, XC_LEX_INVALID, XC_LEX_INVALID, XC_LEX_INVALID, |
| // ^_` |
| XC_LEX_OP_POWER, XC_LEX_NEG, XC_LEX_INVALID, |
| // abcdefgh |
| DC_LEX_ASCIIFY, XC_LEX_INVALID, DC_LEX_CLEAR_STACK, DC_LEX_DUPLICATE, |
| DC_LEX_ELSE, DC_LEX_PRINT_STACK, XC_LEX_INVALID, XC_LEX_INVALID, |
| // ijklmnop |
| DC_LEX_STORE_IBASE, XC_LEX_INVALID, DC_LEX_STORE_SCALE, DC_LEX_LOAD, |
| XC_LEX_INVALID, DC_LEX_PRINT_POP, DC_LEX_STORE_OBASE, DC_LEX_PRINT, |
| // qrstuvwx |
| DC_LEX_QUIT, DC_LEX_SWAP, DC_LEX_OP_ASSIGN, XC_LEX_INVALID, |
| XC_LEX_INVALID, DC_LEX_SQRT, XC_LEX_INVALID, DC_LEX_EXECUTE, |
| // yz |
| XC_LEX_INVALID, DC_LEX_STACK_LEVEL, |
| // {|}~ |
| DC_LEX_LBRACE, DC_LEX_OP_MODEXP, XC_LEX_INVALID, DC_LEX_OP_DIVMOD, |
| }; |
| static const //BcInst - should be this type. Using signed narrow type since DC_INST_INVALID is -1 |
| int8_t |
| dc_LEX_to_INST[] ALIGN1 = { //starts at XC_LEX_OP_POWER // corresponding XC/DC_LEX_xyz: |
| XC_INST_POWER, XC_INST_MULTIPLY, // XC_LEX_OP_POWER XC_LEX_OP_MULTIPLY |
| XC_INST_DIVIDE, XC_INST_MODULUS, // XC_LEX_OP_DIVIDE XC_LEX_OP_MODULUS |
| XC_INST_PLUS, XC_INST_MINUS, // XC_LEX_OP_PLUS XC_LEX_OP_MINUS |
| XC_INST_BOOL_NOT, // DC_LEX_OP_BOOL_NOT |
| DC_INST_INVALID, // DC_LEX_OP_ASSIGN |
| XC_INST_REL_GT, // DC_LEX_LPAREN |
| DC_INST_INVALID, // DC_LEX_SCOLON |
| DC_INST_INVALID, // DC_LEX_READ |
| XC_INST_IBASE, // DC_LEX_IBASE |
| XC_INST_SCALE, // DC_LEX_SCALE |
| XC_INST_OBASE, // DC_LEX_OBASE |
| XC_INST_LENGTH, // DC_LEX_LENGTH |
| XC_INST_PRINT, // DC_LEX_PRINT |
| DC_INST_QUIT, // DC_LEX_QUIT |
| XC_INST_SQRT, // DC_LEX_SQRT |
| XC_INST_REL_GE, // DC_LEX_LBRACE |
| XC_INST_REL_EQ, // DC_LEX_EQ_NO_REG |
| DC_INST_MODEXP, DC_INST_DIVMOD, // DC_LEX_OP_MODEXP DC_LEX_OP_DIVMOD |
| DC_INST_INVALID, DC_INST_INVALID, // DC_LEX_COLON DC_LEX_ELSE |
| DC_INST_EXECUTE, // DC_LEX_EXECUTE |
| DC_INST_PRINT_STACK, DC_INST_CLEAR_STACK, // DC_LEX_PRINT_STACK DC_LEX_CLEAR_STACK |
| DC_INST_STACK_LEN, DC_INST_DUPLICATE, // DC_LEX_STACK_LEVEL DC_LEX_DUPLICATE |
| DC_INST_SWAP, XC_INST_POP, // DC_LEX_SWAP DC_LEX_POP |
| DC_INST_ASCIIFY, DC_INST_PRINT_STREAM, // DC_LEX_ASCIIFY DC_LEX_PRINT_STREAM |
| DC_INST_INVALID, DC_INST_INVALID, // DC_LEX_STORE_IBASE DC_LEX_STORE_OBASE |
| DC_INST_INVALID, DC_INST_INVALID, // DC_LEX_STORE_SCALE DC_LEX_LOAD |
| DC_INST_INVALID, DC_INST_INVALID, // DC_LEX_LOAD_POP DC_LEX_STORE_PUSH |
| XC_INST_PRINT, DC_INST_NQUIT, // DC_LEX_PRINT_POP DC_LEX_NQUIT |
| XC_INST_SCALE_FUNC, // DC_LEX_SCALE_FACTOR |
| // DC_INST_INVALID in this table either means that corresponding LEX |
| // is not possible for dc, or that it does not compile one-to-one |
| // to a single INST. |
| }; |
| #endif // ENABLE_DC |
| |
| typedef struct BcParse { |
| smallint lex; // was BcLexType // first member is most used |
| smallint lex_last; // was BcLexType |
| size_t lex_line; |
| const char *lex_inbuf; |
| const char *lex_next_at; // last lex_next() was called at this string |
| const char *lex_filename; |
| FILE *lex_input_fp; |
| BcVec lex_strnumbuf; |
| |
| BcFunc *func; |
| size_t fidx; |
| IF_BC(size_t in_funcdef;) |
| IF_BC(BcVec exits;) |
| IF_BC(BcVec conds;) |
| IF_BC(BcVec ops;) |
| } BcParse; |
| |
| typedef struct BcProgram { |
| size_t len; |
| size_t nchars; |
| |
| size_t scale; |
| size_t ib_t; |
| size_t ob_t; |
| |
| BcVec results; |
| BcVec exestack; |
| |
| BcVec fns; |
| IF_BC(BcVec fn_map;) |
| |
| BcVec vars; |
| BcVec var_map; |
| |
| BcVec arrs; |
| BcVec arr_map; |
| |
| IF_DC(BcVec strs;) |
| IF_DC(BcVec consts;) |
| |
| BcNum zero; |
| IF_BC(BcNum one;) |
| IF_BC(BcNum last;) |
| } BcProgram; |
| |
| struct globals { |
| BcParse prs; // first member is most used |
| |
| // For error messages. Can be set to current parsed line, |
| // or [TODO] to current executing line (can be before last parsed one) |
| unsigned err_line; |
| |
| BcVec input_buffer; |
| |
| IF_FEATURE_BC_INTERACTIVE(smallint ttyin;) |
| IF_FEATURE_CLEAN_UP(smallint exiting;) |
| |
| BcProgram prog; |
| |
| BcVec files; |
| |
| char *env_args; |
| |
| #if ENABLE_FEATURE_EDITING |
| line_input_t *line_input_state; |
| #endif |
| } FIX_ALIASING; |
| #define G (*ptr_to_globals) |
| #define INIT_G() do { \ |
| SET_PTR_TO_GLOBALS(xzalloc(sizeof(G))); \ |
| } while (0) |
| #define FREE_G() do { \ |
| FREE_PTR_TO_GLOBALS(); \ |
| } while (0) |
| #define G_posix (ENABLE_BC && (option_mask32 & BC_FLAG_S)) |
| #define G_warn (ENABLE_BC && (option_mask32 & BC_FLAG_W)) |
| #define G_exreg (ENABLE_DC && (option_mask32 & DC_FLAG_X)) |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| # define G_interrupt bb_got_signal |
| # define G_ttyin G.ttyin |
| #else |
| # define G_interrupt 0 |
| # define G_ttyin 0 |
| #endif |
| #if ENABLE_FEATURE_CLEAN_UP |
| # define G_exiting G.exiting |
| #else |
| # define G_exiting 0 |
| #endif |
| #define IS_BC (ENABLE_BC && (!ENABLE_DC || applet_name[0] == 'b')) |
| #define IS_DC (ENABLE_DC && (!ENABLE_BC || applet_name[0] != 'b')) |
| |
| #if ENABLE_BC |
| # define BC_PARSE_REL (1 << 0) |
| # define BC_PARSE_PRINT (1 << 1) |
| # define BC_PARSE_ARRAY (1 << 2) |
| # define BC_PARSE_NOCALL (1 << 3) |
| #endif |
| |
| #define BC_PROG_MAIN (0) |
| #define BC_PROG_READ (1) |
| #if ENABLE_DC |
| #define BC_PROG_REQ_FUNCS (2) |
| #endif |
| |
| #define BC_PROG_STR(n) (!(n)->num && !(n)->cap) |
| #define BC_PROG_NUM(r, n) \ |
| ((r)->t != XC_RESULT_ARRAY && (r)->t != XC_RESULT_STR && !BC_PROG_STR(n)) |
| |
| #define BC_FLAG_W (1 << 0) |
| #define BC_FLAG_V (1 << 1) |
| #define BC_FLAG_S (1 << 2) |
| #define BC_FLAG_Q (1 << 3) |
| #define BC_FLAG_L (1 << 4) |
| #define BC_FLAG_I ((1 << 5) * ENABLE_DC) |
| #define DC_FLAG_X ((1 << 6) * ENABLE_DC) |
| |
| #define BC_MAX(a, b) ((a) > (b) ? (a) : (b)) |
| #define BC_MIN(a, b) ((a) < (b) ? (a) : (b)) |
| |
| #define BC_MAX_OBASE ((unsigned) 999) |
| #define BC_MAX_DIM ((unsigned) INT_MAX) |
| #define BC_MAX_SCALE ((unsigned) UINT_MAX) |
| #define BC_MAX_STRING ((unsigned) UINT_MAX - 1) |
| #define BC_MAX_NUM BC_MAX_STRING |
| // Unused apart from "limits" message. Just show a "biggish number" there. |
| //#define BC_MAX_NAME BC_MAX_STRING |
| //#define BC_MAX_EXP ((unsigned long) LONG_MAX) |
| //#define BC_MAX_VARS ((unsigned long) SIZE_MAX - 1) |
| #define BC_MAX_NAME_STR "999999999" |
| #define BC_MAX_EXP_STR "999999999" |
| #define BC_MAX_VARS_STR "999999999" |
| |
| #define BC_MAX_OBASE_STR "999" |
| |
| #if INT_MAX == 2147483647 |
| # define BC_MAX_DIM_STR "2147483647" |
| #elif INT_MAX == 9223372036854775807 |
| # define BC_MAX_DIM_STR "9223372036854775807" |
| #else |
| # error Strange INT_MAX |
| #endif |
| |
| #if UINT_MAX == 4294967295 |
| # define BC_MAX_SCALE_STR "4294967295" |
| # define BC_MAX_STRING_STR "4294967294" |
| #elif UINT_MAX == 18446744073709551615 |
| # define BC_MAX_SCALE_STR "18446744073709551615" |
| # define BC_MAX_STRING_STR "18446744073709551614" |
| #else |
| # error Strange UINT_MAX |
| #endif |
| #define BC_MAX_NUM_STR BC_MAX_STRING_STR |
| |
| // In configurations where errors abort instead of propagating error |
| // return code up the call chain, functions returning BC_STATUS |
| // actually don't return anything, they always succeed and return "void". |
| // A macro wrapper is provided, which makes this statement work: |
| // s = zbc_func(...) |
| // and makes it visible to the compiler that s is always zero, |
| // allowing compiler to optimize dead code after the statement. |
| // |
| // To make code more readable, each such function has a "z" |
| // ("always returning zero") prefix, i.e. zbc_foo or zdc_foo. |
| // |
| #if ENABLE_FEATURE_BC_INTERACTIVE || ENABLE_FEATURE_CLEAN_UP |
| # define ERRORS_ARE_FATAL 0 |
| # define ERRORFUNC /*nothing*/ |
| # define IF_ERROR_RETURN_POSSIBLE(a) a |
| # define BC_STATUS BcStatus |
| # define RETURN_STATUS(v) return (v) |
| # define COMMA_SUCCESS /*nothing*/ |
| #else |
| # define ERRORS_ARE_FATAL 1 |
| # define ERRORFUNC NORETURN |
| # define IF_ERROR_RETURN_POSSIBLE(a) /*nothing*/ |
| # define BC_STATUS void |
| # define RETURN_STATUS(v) do { ((void)(v)); return; } while (0) |
| # define COMMA_SUCCESS ,BC_STATUS_SUCCESS |
| #endif |
| |
| // |
| // Utility routines |
| // |
| |
| static void fflush_and_check(void) |
| { |
| fflush_all(); |
| if (ferror(stdout) || ferror(stderr)) |
| bb_perror_msg_and_die("output error"); |
| } |
| |
| #if ENABLE_FEATURE_CLEAN_UP |
| #define QUIT_OR_RETURN_TO_MAIN \ |
| do { \ |
| IF_FEATURE_BC_INTERACTIVE(G_ttyin = 0;) /* do not loop in main loop anymore */ \ |
| G_exiting = 1; \ |
| return BC_STATUS_FAILURE; \ |
| } while (0) |
| #else |
| static void quit(void) NORETURN; |
| static void quit(void) |
| { |
| if (ferror(stdin)) |
| bb_perror_msg_and_die("input error"); |
| fflush_and_check(); |
| dbg_exec("quit(): exiting with exitcode SUCCESS"); |
| exit(0); |
| } |
| #define QUIT_OR_RETURN_TO_MAIN quit() |
| #endif |
| |
| static void bc_verror_msg(const char *fmt, va_list p) |
| { |
| const char *sv = sv; // for compiler |
| if (G.prs.lex_filename) { |
| sv = applet_name; |
| applet_name = xasprintf("%s: %s:%u", applet_name, G.prs.lex_filename, G.err_line); |
| } |
| bb_verror_msg(fmt, p, NULL); |
| if (G.prs.lex_filename) { |
| free((char*)applet_name); |
| applet_name = sv; |
| } |
| } |
| |
| static NOINLINE ERRORFUNC int bc_error_fmt(const char *fmt, ...) |
| { |
| va_list p; |
| |
| va_start(p, fmt); |
| bc_verror_msg(fmt, p); |
| va_end(p); |
| |
| if (ENABLE_FEATURE_CLEAN_UP || G_ttyin) |
| IF_ERROR_RETURN_POSSIBLE(return BC_STATUS_FAILURE); |
| exit(1); |
| } |
| |
| #if ENABLE_BC |
| static NOINLINE BC_STATUS zbc_posix_error_fmt(const char *fmt, ...) |
| { |
| va_list p; |
| |
| // Are non-POSIX constructs totally ok? |
| if (!(option_mask32 & (BC_FLAG_S|BC_FLAG_W))) |
| RETURN_STATUS(BC_STATUS_SUCCESS); // yes |
| |
| va_start(p, fmt); |
| bc_verror_msg(fmt, p); |
| va_end(p); |
| |
| // Do we treat non-POSIX constructs as errors? |
| if (!(option_mask32 & BC_FLAG_S)) |
| RETURN_STATUS(BC_STATUS_SUCCESS); // no, it's a warning |
| |
| if (ENABLE_FEATURE_CLEAN_UP || G_ttyin) |
| RETURN_STATUS(BC_STATUS_FAILURE); |
| exit(1); |
| } |
| #define zbc_posix_error_fmt(...) (zbc_posix_error_fmt(__VA_ARGS__) COMMA_SUCCESS) |
| #endif |
| |
| // We use error functions with "return bc_error(FMT[, PARAMS])" idiom. |
| // This idiom begs for tail-call optimization, but for it to work, |
| // function must not have caller-cleaned parameters on stack. |
| // Unfortunately, vararg function API does exactly that on most arches. |
| // Thus, use these shims for the cases when we have no vararg PARAMS: |
| static ERRORFUNC int bc_error(const char *msg) |
| { |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error_fmt("%s", msg); |
| } |
| static ERRORFUNC int bc_error_bad_character(char c) |
| { |
| if (!c) |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error("NUL character"); |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error_fmt("bad character '%c'", c); |
| } |
| static ERRORFUNC int bc_error_bad_expression(void) |
| { |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error("bad expression"); |
| } |
| static ERRORFUNC int bc_error_bad_token(void) |
| { |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error("bad token"); |
| } |
| static ERRORFUNC int bc_error_stack_has_too_few_elements(void) |
| { |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error("stack has too few elements"); |
| } |
| static ERRORFUNC int bc_error_variable_is_wrong_type(void) |
| { |
| IF_ERROR_RETURN_POSSIBLE(return) bc_error("variable is wrong type"); |
| } |
| #if ENABLE_BC |
| static BC_STATUS zbc_POSIX_requires(const char *msg) |
| { |
| RETURN_STATUS(zbc_posix_error_fmt("POSIX requires %s", msg)); |
| } |
| #define zbc_POSIX_requires(...) (zbc_POSIX_requires(__VA_ARGS__) COMMA_SUCCESS) |
| static BC_STATUS zbc_POSIX_does_not_allow(const char *msg) |
| { |
| RETURN_STATUS(zbc_posix_error_fmt("%s%s", "POSIX does not allow ", msg)); |
| } |
| #define zbc_POSIX_does_not_allow(...) (zbc_POSIX_does_not_allow(__VA_ARGS__) COMMA_SUCCESS) |
| static BC_STATUS zbc_POSIX_does_not_allow_bool_ops_this_is_bad(const char *msg) |
| { |
| RETURN_STATUS(zbc_posix_error_fmt("%s%s %s", "POSIX does not allow ", "boolean operators; this is bad:", msg)); |
| } |
| #define zbc_POSIX_does_not_allow_bool_ops_this_is_bad(...) (zbc_POSIX_does_not_allow_bool_ops_this_is_bad(__VA_ARGS__) COMMA_SUCCESS) |
| static BC_STATUS zbc_POSIX_does_not_allow_empty_X_expression_in_for(const char *msg) |
| { |
| RETURN_STATUS(zbc_posix_error_fmt("%san empty %s expression in 'for()'", "POSIX does not allow ", msg)); |
| } |
| #define zbc_POSIX_does_not_allow_empty_X_expression_in_for(...) (zbc_POSIX_does_not_allow_empty_X_expression_in_for(__VA_ARGS__) COMMA_SUCCESS) |
| #endif |
| |
| static void bc_vec_grow(BcVec *v, size_t n) |
| { |
| size_t cap = v->cap * 2; |
| while (cap < v->len + n) cap *= 2; |
| v->v = xrealloc(v->v, v->size * cap); |
| v->cap = cap; |
| } |
| |
| static void bc_vec_init(BcVec *v, size_t esize, BcVecFree dtor) |
| { |
| v->size = esize; |
| v->cap = BC_VEC_START_CAP; |
| v->len = 0; |
| v->dtor = dtor; |
| v->v = xmalloc(esize * BC_VEC_START_CAP); |
| } |
| |
| static void bc_char_vec_init(BcVec *v) |
| { |
| bc_vec_init(v, sizeof(char), NULL); |
| } |
| |
| static void bc_vec_expand(BcVec *v, size_t req) |
| { |
| if (v->cap < req) { |
| v->v = xrealloc(v->v, v->size * req); |
| v->cap = req; |
| } |
| } |
| |
| static void bc_vec_pop(BcVec *v) |
| { |
| v->len--; |
| if (v->dtor) |
| v->dtor(v->v + (v->size * v->len)); |
| } |
| |
| static void bc_vec_npop(BcVec *v, size_t n) |
| { |
| if (!v->dtor) |
| v->len -= n; |
| else { |
| size_t len = v->len - n; |
| while (v->len > len) v->dtor(v->v + (v->size * --v->len)); |
| } |
| } |
| |
| static void bc_vec_pop_all(BcVec *v) |
| { |
| bc_vec_npop(v, v->len); |
| } |
| |
| static size_t bc_vec_push(BcVec *v, const void *data) |
| { |
| size_t len = v->len; |
| if (len >= v->cap) bc_vec_grow(v, 1); |
| memmove(v->v + (v->size * len), data, v->size); |
| v->len++; |
| return len; |
| } |
| |
| // G.prog.results often needs "pop old operand, push result" idiom. |
| // Can do this without a few extra ops |
| static size_t bc_result_pop_and_push(const void *data) |
| { |
| BcVec *v = &G.prog.results; |
| char *last; |
| size_t len = v->len - 1; |
| |
| last = v->v + (v->size * len); |
| if (v->dtor) |
| v->dtor(last); |
| memmove(last, data, v->size); |
| return len; |
| } |
| |
| static size_t bc_vec_pushByte(BcVec *v, char data) |
| { |
| return bc_vec_push(v, &data); |
| } |
| |
| static size_t bc_vec_pushZeroByte(BcVec *v) |
| { |
| //return bc_vec_pushByte(v, '\0'); |
| // better: |
| return bc_vec_push(v, &const_int_0); |
| } |
| |
| static void bc_vec_pushAt(BcVec *v, const void *data, size_t idx) |
| { |
| if (idx == v->len) |
| bc_vec_push(v, data); |
| else { |
| char *ptr; |
| |
| if (v->len == v->cap) bc_vec_grow(v, 1); |
| |
| ptr = v->v + v->size * idx; |
| |
| memmove(ptr + v->size, ptr, v->size * (v->len++ - idx)); |
| memmove(ptr, data, v->size); |
| } |
| } |
| |
| static void bc_vec_string(BcVec *v, size_t len, const char *str) |
| { |
| bc_vec_pop_all(v); |
| bc_vec_expand(v, len + 1); |
| memcpy(v->v, str, len); |
| v->len = len; |
| |
| bc_vec_pushZeroByte(v); |
| } |
| |
| static void *bc_vec_item(const BcVec *v, size_t idx) |
| { |
| return v->v + v->size * idx; |
| } |
| |
| static void *bc_vec_item_rev(const BcVec *v, size_t idx) |
| { |
| return v->v + v->size * (v->len - idx - 1); |
| } |
| |
| static void *bc_vec_top(const BcVec *v) |
| { |
| return v->v + v->size * (v->len - 1); |
| } |
| |
| static FAST_FUNC void bc_vec_free(void *vec) |
| { |
| BcVec *v = (BcVec *) vec; |
| bc_vec_pop_all(v); |
| free(v->v); |
| } |
| |
| static BcFunc* xc_program_func(size_t idx) |
| { |
| return bc_vec_item(&G.prog.fns, idx); |
| } |
| // BC_PROG_MAIN is zeroth element, so: |
| #define xc_program_func_BC_PROG_MAIN() ((BcFunc*)(G.prog.fns.v)) |
| |
| #if ENABLE_BC |
| static BcFunc* bc_program_current_func(void) |
| { |
| BcInstPtr *ip = bc_vec_top(&G.prog.exestack); |
| BcFunc *func = xc_program_func(ip->func); |
| return func; |
| } |
| #endif |
| |
| static char** xc_program_str(size_t idx) |
| { |
| #if ENABLE_BC |
| if (IS_BC) { |
| BcFunc *func = bc_program_current_func(); |
| return bc_vec_item(&func->strs, idx); |
| } |
| #endif |
| IF_DC(return bc_vec_item(&G.prog.strs, idx);) |
| } |
| |
| static char** xc_program_const(size_t idx) |
| { |
| #if ENABLE_BC |
| if (IS_BC) { |
| BcFunc *func = bc_program_current_func(); |
| return bc_vec_item(&func->consts, idx); |
| } |
| #endif |
| IF_DC(return bc_vec_item(&G.prog.consts, idx);) |
| } |
| |
| static int bc_id_cmp(const void *e1, const void *e2) |
| { |
| return strcmp(((const BcId *) e1)->name, ((const BcId *) e2)->name); |
| } |
| |
| static FAST_FUNC void bc_id_free(void *id) |
| { |
| free(((BcId *) id)->name); |
| } |
| |
| static size_t bc_map_find_ge(const BcVec *v, const void *ptr) |
| { |
| size_t low = 0, high = v->len; |
| |
| while (low < high) { |
| size_t mid = (low + high) / 2; |
| BcId *id = bc_vec_item(v, mid); |
| int result = bc_id_cmp(ptr, id); |
| |
| if (result == 0) |
| return mid; |
| if (result < 0) |
| high = mid; |
| else |
| low = mid + 1; |
| } |
| |
| return low; |
| } |
| |
| static int bc_map_insert(BcVec *v, const void *ptr, size_t *i) |
| { |
| size_t n = *i = bc_map_find_ge(v, ptr); |
| |
| if (n == v->len) |
| bc_vec_push(v, ptr); |
| else if (!bc_id_cmp(ptr, bc_vec_item(v, n))) |
| return 0; // "was not inserted" |
| else |
| bc_vec_pushAt(v, ptr, n); |
| return 1; // "was inserted" |
| } |
| |
| #if ENABLE_BC |
| static size_t bc_map_find_exact(const BcVec *v, const void *ptr) |
| { |
| size_t i = bc_map_find_ge(v, ptr); |
| if (i >= v->len) return BC_VEC_INVALID_IDX; |
| return bc_id_cmp(ptr, bc_vec_item(v, i)) ? BC_VEC_INVALID_IDX : i; |
| } |
| #endif |
| |
| static void bc_num_setToZero(BcNum *n, size_t scale) |
| { |
| n->len = 0; |
| n->neg = false; |
| n->rdx = scale; |
| } |
| |
| static void bc_num_zero(BcNum *n) |
| { |
| bc_num_setToZero(n, 0); |
| } |
| |
| static void bc_num_one(BcNum *n) |
| { |
| bc_num_setToZero(n, 0); |
| n->len = 1; |
| n->num[0] = 1; |
| } |
| |
| // Note: this also sets BcNum to zero |
| static void bc_num_init(BcNum *n, size_t req) |
| { |
| req = req >= BC_NUM_DEF_SIZE ? req : BC_NUM_DEF_SIZE; |
| //memset(n, 0, sizeof(BcNum)); - cleared by assignments below |
| n->num = xmalloc(req); |
| n->cap = req; |
| n->rdx = 0; |
| n->len = 0; |
| n->neg = false; |
| } |
| |
| static void bc_num_init_DEF_SIZE(BcNum *n) |
| { |
| bc_num_init(n, BC_NUM_DEF_SIZE); |
| } |
| |
| static void bc_num_expand(BcNum *n, size_t req) |
| { |
| req = req >= BC_NUM_DEF_SIZE ? req : BC_NUM_DEF_SIZE; |
| if (req > n->cap) { |
| n->num = xrealloc(n->num, req); |
| n->cap = req; |
| } |
| } |
| |
| static FAST_FUNC void bc_num_free(void *num) |
| { |
| free(((BcNum *) num)->num); |
| } |
| |
| static void bc_num_copy(BcNum *d, BcNum *s) |
| { |
| if (d != s) { |
| bc_num_expand(d, s->cap); |
| d->len = s->len; |
| d->neg = s->neg; |
| d->rdx = s->rdx; |
| memcpy(d->num, s->num, sizeof(BcDig) * d->len); |
| } |
| } |
| |
| static BC_STATUS zbc_num_ulong_abs(BcNum *n, unsigned long *result_p) |
| { |
| size_t i; |
| unsigned long result; |
| |
| result = 0; |
| i = n->len; |
| while (i > n->rdx) { |
| unsigned long prev = result; |
| result = result * 10 + n->num[--i]; |
| // Even overflowed N*10 can still satisfy N*10>=N. For example, |
| // 0x1ff00000 * 10 is 0x13f600000, |
| // or 0x3f600000 truncated to 32 bits. Which is larger. |
| // However, (N*10)/8 < N check is always correct. |
| if ((result / 8) < prev) |
| RETURN_STATUS(bc_error("overflow")); |
| } |
| *result_p = result; |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_num_ulong_abs(...) (zbc_num_ulong_abs(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_num_ulong(BcNum *n, unsigned long *result_p) |
| { |
| if (n->neg) RETURN_STATUS(bc_error("negative number")); |
| |
| RETURN_STATUS(zbc_num_ulong_abs(n, result_p)); |
| } |
| #define zbc_num_ulong(...) (zbc_num_ulong(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ULONG_MAX == 0xffffffffUL // 10 digits: 4294967295 |
| # define ULONG_NUM_BUFSIZE (10 > BC_NUM_DEF_SIZE ? 10 : BC_NUM_DEF_SIZE) |
| #elif ULONG_MAX == 0xffffffffffffffffULL // 20 digits: 18446744073709551615 |
| # define ULONG_NUM_BUFSIZE (20 > BC_NUM_DEF_SIZE ? 20 : BC_NUM_DEF_SIZE) |
| #endif |
| // minimum BC_NUM_DEF_SIZE, so that bc_num_expand() in bc_num_ulong2num() |
| // would not hit realloc() code path - not good if num[] is not malloced |
| |
| static void bc_num_ulong2num(BcNum *n, unsigned long val) |
| { |
| BcDig *ptr; |
| |
| bc_num_zero(n); |
| |
| if (val == 0) return; |
| |
| bc_num_expand(n, ULONG_NUM_BUFSIZE); |
| |
| ptr = n->num; |
| for (;;) { |
| n->len++; |
| *ptr++ = val % 10; |
| val /= 10; |
| if (val == 0) break; |
| } |
| } |
| |
| static void bc_num_subArrays(BcDig *restrict a, BcDig *restrict b, size_t len) |
| { |
| size_t i, j; |
| for (i = 0; i < len; ++i) { |
| a[i] -= b[i]; |
| for (j = i; a[j] < 0;) { |
| a[j++] += 10; |
| a[j] -= 1; |
| } |
| } |
| } |
| |
| static ssize_t bc_num_compare(BcDig *restrict a, BcDig *restrict b, size_t len) |
| { |
| size_t i = len; |
| for (;;) { |
| int c; |
| if (i == 0) |
| return 0; |
| i--; |
| c = a[i] - b[i]; |
| if (c != 0) { |
| i++; |
| if (c < 0) |
| return -i; |
| return i; |
| } |
| } |
| } |
| |
| #define BC_NUM_NEG(n, neg) ((((ssize_t)(n)) ^ -((ssize_t)(neg))) + (neg)) |
| #define BC_NUM_ONE(n) ((n)->len == 1 && (n)->rdx == 0 && (n)->num[0] == 1) |
| #define BC_NUM_INT(n) ((n)->len - (n)->rdx) |
| //#define BC_NUM_AREQ(a, b) (BC_MAX((a)->rdx, (b)->rdx) + BC_MAX(BC_NUM_INT(a), BC_NUM_INT(b)) + 1) |
| static /*ALWAYS_INLINE*/ size_t BC_NUM_AREQ(BcNum *a, BcNum *b) |
| { |
| return BC_MAX(a->rdx, b->rdx) + BC_MAX(BC_NUM_INT(a), BC_NUM_INT(b)) + 1; |
| } |
| //#define BC_NUM_MREQ(a, b, scale) (BC_NUM_INT(a) + BC_NUM_INT(b) + BC_MAX((scale), (a)->rdx + (b)->rdx) + 1) |
| static /*ALWAYS_INLINE*/ size_t BC_NUM_MREQ(BcNum *a, BcNum *b, size_t scale) |
| { |
| return BC_NUM_INT(a) + BC_NUM_INT(b) + BC_MAX(scale, a->rdx + b->rdx) + 1; |
| } |
| |
| static ssize_t bc_num_cmp(BcNum *a, BcNum *b) |
| { |
| size_t i, min, a_int, b_int, diff; |
| BcDig *max_num, *min_num; |
| bool a_max, neg; |
| ssize_t cmp; |
| |
| if (a == b) return 0; |
| if (a->len == 0) return BC_NUM_NEG(!!b->len, !b->neg); |
| if (b->len == 0) return BC_NUM_NEG(1, a->neg); |
| |
| if (a->neg != b->neg) // signs of a and b differ |
| // +a,-b = a>b = 1 or -a,+b = a<b = -1 |
| return (int)b->neg - (int)a->neg; |
| neg = a->neg; // 1 if both negative, 0 if both positive |
| |
| a_int = BC_NUM_INT(a); |
| b_int = BC_NUM_INT(b); |
| a_int -= b_int; |
| |
| if (a_int != 0) return (ssize_t) 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; |
| // neg = (a_max == neg); - NOP (maps 1->1 and 0->0) |
| } else { |
| min = a->rdx; |
| diff = b->rdx - a->rdx; |
| max_num = b->num + diff; |
| min_num = a->num; |
| neg = !neg; // same as "neg = (a_max == neg)" |
| } |
| |
| cmp = bc_num_compare(max_num, min_num, b_int + min); |
| if (cmp != 0) return BC_NUM_NEG(cmp, neg); |
| |
| for (max_num -= diff, i = diff - 1; i < diff; --i) { |
| if (max_num[i]) return BC_NUM_NEG(1, neg); |
| } |
| |
| return 0; |
| } |
| |
| static void bc_num_truncate(BcNum *n, size_t places) |
| { |
| if (places == 0) return; |
| |
| n->rdx -= places; |
| |
| if (n->len != 0) { |
| n->len -= places; |
| memmove(n->num, n->num + places, n->len * sizeof(BcDig)); |
| } |
| } |
| |
| static void bc_num_extend(BcNum *n, size_t places) |
| { |
| size_t len = n->len + places; |
| |
| if (places != 0) { |
| if (n->cap < len) bc_num_expand(n, len); |
| |
| memmove(n->num + places, n->num, sizeof(BcDig) * n->len); |
| memset(n->num, 0, sizeof(BcDig) * places); |
| |
| n->len += places; |
| n->rdx += places; |
| } |
| } |
| |
| static void bc_num_clean(BcNum *n) |
| { |
| while (n->len > 0 && n->num[n->len - 1] == 0) --n->len; |
| if (n->len == 0) |
| n->neg = false; |
| else if (n->len < n->rdx) |
| n->len = n->rdx; |
| } |
| |
| static void bc_num_retireMul(BcNum *n, size_t scale, bool neg1, bool neg2) |
| { |
| if (n->rdx < scale) |
| bc_num_extend(n, scale - n->rdx); |
| else |
| bc_num_truncate(n, n->rdx - scale); |
| |
| bc_num_clean(n); |
| if (n->len != 0) n->neg = !neg1 != !neg2; |
| } |
| |
| static void bc_num_split(BcNum *restrict n, size_t idx, BcNum *restrict a, |
| BcNum *restrict b) |
| { |
| if (idx < n->len) { |
| b->len = n->len - idx; |
| a->len = idx; |
| a->rdx = b->rdx = 0; |
| |
| memcpy(b->num, n->num + idx, b->len * sizeof(BcDig)); |
| memcpy(a->num, n->num, idx * sizeof(BcDig)); |
| } else { |
| bc_num_zero(b); |
| bc_num_copy(a, n); |
| } |
| |
| bc_num_clean(a); |
| bc_num_clean(b); |
| } |
| |
| static BC_STATUS zbc_num_shift(BcNum *n, size_t places) |
| { |
| if (places == 0 || n->len == 0) RETURN_STATUS(BC_STATUS_SUCCESS); |
| |
| // This check makes sense only if size_t is (much) larger than BC_MAX_NUM. |
| if (SIZE_MAX > (BC_MAX_NUM | 0xff)) { |
| if (places + n->len > BC_MAX_NUM) |
| RETURN_STATUS(bc_error("number too long: must be [1,"BC_MAX_NUM_STR"]")); |
| } |
| |
| if (n->rdx >= places) |
| n->rdx -= places; |
| else { |
| bc_num_extend(n, places - n->rdx); |
| n->rdx = 0; |
| } |
| |
| bc_num_clean(n); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_num_shift(...) (zbc_num_shift(__VA_ARGS__) COMMA_SUCCESS) |
| |
| typedef BC_STATUS (*BcNumBinaryOp)(BcNum *, BcNum *, BcNum *, size_t) FAST_FUNC; |
| |
| static BC_STATUS zbc_num_binary(BcNum *a, BcNum *b, BcNum *c, size_t scale, |
| BcNumBinaryOp op, size_t req) |
| { |
| BcStatus s; |
| BcNum num2, *ptr_a, *ptr_b; |
| bool init = false; |
| |
| if (c == a) { |
| ptr_a = &num2; |
| memcpy(ptr_a, c, sizeof(BcNum)); |
| init = true; |
| } else |
| ptr_a = a; |
| |
| if (c == b) { |
| ptr_b = &num2; |
| if (c != a) { |
| memcpy(ptr_b, c, sizeof(BcNum)); |
| init = true; |
| } |
| } else |
| ptr_b = b; |
| |
| if (init) |
| bc_num_init(c, req); |
| else |
| bc_num_expand(c, req); |
| |
| s = BC_STATUS_SUCCESS; |
| IF_ERROR_RETURN_POSSIBLE(s =) op(ptr_a, ptr_b, c, scale); |
| |
| if (init) bc_num_free(&num2); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_binary(...) (zbc_num_binary(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_a(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| static FAST_FUNC BC_STATUS zbc_num_s(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| static FAST_FUNC BC_STATUS zbc_num_p(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| static FAST_FUNC BC_STATUS zbc_num_m(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| static FAST_FUNC BC_STATUS zbc_num_d(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| static FAST_FUNC BC_STATUS zbc_num_rem(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale); |
| |
| static FAST_FUNC BC_STATUS zbc_num_add(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| BcNumBinaryOp op = (!a->neg == !b->neg) ? zbc_num_a : zbc_num_s; |
| (void) scale; |
| RETURN_STATUS(zbc_num_binary(a, b, c, false, op, BC_NUM_AREQ(a, b))); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_sub(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| BcNumBinaryOp op = (!a->neg == !b->neg) ? zbc_num_s : zbc_num_a; |
| (void) scale; |
| RETURN_STATUS(zbc_num_binary(a, b, c, true, op, BC_NUM_AREQ(a, b))); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_mul(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| size_t req = BC_NUM_MREQ(a, b, scale); |
| RETURN_STATUS(zbc_num_binary(a, b, c, scale, zbc_num_m, req)); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_div(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| size_t req = BC_NUM_MREQ(a, b, scale); |
| RETURN_STATUS(zbc_num_binary(a, b, c, scale, zbc_num_d, req)); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_mod(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| size_t req = BC_NUM_MREQ(a, b, scale); |
| RETURN_STATUS(zbc_num_binary(a, b, c, scale, zbc_num_rem, req)); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_pow(BcNum *a, BcNum *b, BcNum *c, size_t scale) |
| { |
| RETURN_STATUS(zbc_num_binary(a, b, c, scale, zbc_num_p, a->len * b->len + 1)); |
| } |
| |
| static const BcNumBinaryOp zxc_program_ops[] = { |
| zbc_num_pow, zbc_num_mul, zbc_num_div, zbc_num_mod, zbc_num_add, zbc_num_sub, |
| }; |
| #define zbc_num_add(...) (zbc_num_add(__VA_ARGS__) COMMA_SUCCESS) |
| #define zbc_num_sub(...) (zbc_num_sub(__VA_ARGS__) COMMA_SUCCESS) |
| #define zbc_num_mul(...) (zbc_num_mul(__VA_ARGS__) COMMA_SUCCESS) |
| #define zbc_num_div(...) (zbc_num_div(__VA_ARGS__) COMMA_SUCCESS) |
| #define zbc_num_mod(...) (zbc_num_mod(__VA_ARGS__) COMMA_SUCCESS) |
| #define zbc_num_pow(...) (zbc_num_pow(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_num_inv(BcNum *a, BcNum *b, size_t scale) |
| { |
| BcNum one; |
| BcDig num[2]; |
| |
| one.cap = 2; |
| one.num = num; |
| bc_num_one(&one); |
| |
| RETURN_STATUS(zbc_num_div(&one, a, b, scale)); |
| } |
| #define zbc_num_inv(...) (zbc_num_inv(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_a(BcNum *a, BcNum *b, BcNum *restrict c, size_t sub) |
| { |
| BcDig *ptr, *ptr_a, *ptr_b, *ptr_c; |
| size_t i, max, min_rdx, min_int, diff, a_int, b_int; |
| unsigned carry; |
| |
| // Because this function doesn't need to use scale (per the bc spec), |
| // I am hijacking it to say whether it's doing an add or a subtract. |
| |
| if (a->len == 0) { |
| bc_num_copy(c, b); |
| if (sub && c->len) c->neg = !c->neg; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (b->len == 0) { |
| bc_num_copy(c, a); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| c->neg = a->neg; |
| c->rdx = BC_MAX(a->rdx, b->rdx); |
| min_rdx = BC_MIN(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; |
| } |
| |
| ptr_c = c->num; |
| for (i = 0; i < diff; ++i, ++c->len) |
| ptr_c[i] = ptr[i]; |
| |
| ptr_c += diff; |
| a_int = BC_NUM_INT(a); |
| b_int = BC_NUM_INT(b); |
| |
| 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; |
| } |
| |
| carry = 0; |
| for (i = 0; i < min_rdx + min_int; ++i) { |
| unsigned in = (unsigned)ptr_a[i] + (unsigned)ptr_b[i] + carry; |
| carry = in / 10; |
| ptr_c[i] = (BcDig)(in % 10); |
| } |
| for (; i < max + min_rdx; ++i) { |
| unsigned in = (unsigned)ptr[i] + carry; |
| carry = in / 10; |
| ptr_c[i] = (BcDig)(in % 10); |
| } |
| c->len += i; |
| |
| if (carry != 0) c->num[c->len++] = (BcDig) carry; |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); // can't make void, see zbc_num_binary() |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_s(BcNum *a, BcNum *b, BcNum *restrict c, size_t sub) |
| { |
| ssize_t cmp; |
| BcNum *minuend, *subtrahend; |
| size_t start; |
| bool aneg, bneg, neg; |
| |
| // Because this function doesn't need to use scale (per the bc spec), |
| // I am hijacking it to say whether it's doing an add or a subtract. |
| |
| if (a->len == 0) { |
| bc_num_copy(c, b); |
| if (sub && c->len) c->neg = !c->neg; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (b->len == 0) { |
| bc_num_copy(c, a); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| aneg = a->neg; |
| bneg = b->neg; |
| a->neg = b->neg = false; |
| |
| cmp = bc_num_cmp(a, b); |
| |
| a->neg = aneg; |
| b->neg = bneg; |
| |
| if (cmp == 0) { |
| bc_num_setToZero(c, BC_MAX(a->rdx, b->rdx)); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (cmp > 0) { |
| neg = a->neg; |
| minuend = a; |
| subtrahend = b; |
| } else { |
| neg = b->neg; |
| if (sub) neg = !neg; |
| minuend = b; |
| subtrahend = a; |
| } |
| |
| bc_num_copy(c, minuend); |
| c->neg = neg; |
| |
| if (c->rdx < subtrahend->rdx) { |
| bc_num_extend(c, subtrahend->rdx - c->rdx); |
| start = 0; |
| } else |
| start = c->rdx - subtrahend->rdx; |
| |
| bc_num_subArrays(c->num + start, subtrahend->num, subtrahend->len); |
| |
| bc_num_clean(c); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); // can't make void, see zbc_num_binary() |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_k(BcNum *restrict a, BcNum *restrict b, |
| BcNum *restrict c) |
| #define zbc_num_k(...) (zbc_num_k(__VA_ARGS__) COMMA_SUCCESS) |
| { |
| BcStatus s; |
| size_t max = BC_MAX(a->len, b->len), max2 = (max + 1) / 2; |
| BcNum l1, h1, l2, h2, m2, m1, z0, z1, z2, temp; |
| bool aone; |
| |
| if (a->len == 0 || b->len == 0) { |
| bc_num_zero(c); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| aone = BC_NUM_ONE(a); |
| if (aone || BC_NUM_ONE(b)) { |
| bc_num_copy(c, aone ? b : a); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| if (a->len + b->len < BC_NUM_KARATSUBA_LEN |
| || a->len < BC_NUM_KARATSUBA_LEN |
| || b->len < BC_NUM_KARATSUBA_LEN |
| ) { |
| size_t i, j, len; |
| |
| bc_num_expand(c, a->len + b->len + 1); |
| |
| memset(c->num, 0, sizeof(BcDig) * c->cap); |
| c->len = len = 0; |
| |
| for (i = 0; i < b->len; ++i) { |
| unsigned carry = 0; |
| for (j = 0; j < a->len; ++j) { |
| unsigned in = c->num[i + j]; |
| in += (unsigned)a->num[j] * (unsigned)b->num[i] + carry; |
| // note: compilers prefer _unsigned_ div/const |
| carry = in / 10; |
| c->num[i + j] = (BcDig)(in % 10); |
| } |
| |
| c->num[i + j] += (BcDig) carry; |
| len = BC_MAX(len, i + j + !!carry); |
| |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| // a=2^1000000 |
| // a*a <- without check below, this will not be interruptible |
| if (G_interrupt) return BC_STATUS_FAILURE; |
| #endif |
| } |
| |
| c->len = len; |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| bc_num_init(&l1, max); |
| bc_num_init(&h1, max); |
| bc_num_init(&l2, max); |
| bc_num_init(&h2, max); |
| bc_num_init(&m1, max); |
| bc_num_init(&m2, max); |
| bc_num_init(&z0, max); |
| bc_num_init(&z1, max); |
| bc_num_init(&z2, max); |
| bc_num_init(&temp, max + max); |
| |
| bc_num_split(a, max2, &l1, &h1); |
| bc_num_split(b, max2, &l2, &h2); |
| |
| s = zbc_num_add(&h1, &l1, &m1, 0); |
| if (s) goto err; |
| s = zbc_num_add(&h2, &l2, &m2, 0); |
| if (s) goto err; |
| |
| s = zbc_num_k(&h1, &h2, &z0); |
| if (s) goto err; |
| s = zbc_num_k(&m1, &m2, &z1); |
| if (s) goto err; |
| s = zbc_num_k(&l1, &l2, &z2); |
| if (s) goto err; |
| |
| s = zbc_num_sub(&z1, &z0, &temp, 0); |
| if (s) goto err; |
| s = zbc_num_sub(&temp, &z2, &z1, 0); |
| if (s) goto err; |
| |
| s = zbc_num_shift(&z0, max2 * 2); |
| if (s) goto err; |
| s = zbc_num_shift(&z1, max2); |
| if (s) goto err; |
| s = zbc_num_add(&z0, &z1, &temp, 0); |
| if (s) goto err; |
| s = zbc_num_add(&temp, &z2, c, 0); |
| err: |
| bc_num_free(&temp); |
| bc_num_free(&z2); |
| bc_num_free(&z1); |
| bc_num_free(&z0); |
| bc_num_free(&m2); |
| bc_num_free(&m1); |
| bc_num_free(&h2); |
| bc_num_free(&l2); |
| bc_num_free(&h1); |
| bc_num_free(&l1); |
| RETURN_STATUS(s); |
| } |
| |
| static FAST_FUNC BC_STATUS zbc_num_m(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale) |
| { |
| BcStatus s; |
| BcNum cpa, cpb; |
| size_t maxrdx = BC_MAX(a->rdx, b->rdx); |
| |
| scale = BC_MAX(scale, a->rdx); |
| scale = BC_MAX(scale, b->rdx); |
| scale = BC_MIN(a->rdx + b->rdx, scale); |
| maxrdx = BC_MAX(maxrdx, scale); |
| |
| bc_num_init(&cpa, a->len); |
| bc_num_init(&cpb, b->len); |
| |
| bc_num_copy(&cpa, a); |
| bc_num_copy(&cpb, b); |
| cpa.neg = cpb.neg = false; |
| |
| s = zbc_num_shift(&cpa, maxrdx); |
| if (s) goto err; |
| s = zbc_num_shift(&cpb, maxrdx); |
| if (s) goto err; |
| s = zbc_num_k(&cpa, &cpb, c); |
| if (s) goto err; |
| |
| maxrdx += scale; |
| bc_num_expand(c, c->len + maxrdx); |
| |
| if (c->len < maxrdx) { |
| memset(c->num + c->len, 0, (c->cap - c->len) * sizeof(BcDig)); |
| c->len += maxrdx; |
| } |
| |
| c->rdx = maxrdx; |
| bc_num_retireMul(c, scale, a->neg, b->neg); |
| err: |
| bc_num_free(&cpb); |
| bc_num_free(&cpa); |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_m(...) (zbc_num_m(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_d(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale) |
| { |
| BcStatus s; |
| size_t len, end, i; |
| BcNum cp; |
| |
| if (b->len == 0) |
| RETURN_STATUS(bc_error("divide by zero")); |
| if (a->len == 0) { |
| bc_num_setToZero(c, scale); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (BC_NUM_ONE(b)) { |
| bc_num_copy(c, a); |
| bc_num_retireMul(c, scale, a->neg, b->neg); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| bc_num_init(&cp, BC_NUM_MREQ(a, b, scale)); |
| bc_num_copy(&cp, a); |
| len = b->len; |
| |
| if (len > cp.len) { |
| bc_num_expand(&cp, len + 2); |
| bc_num_extend(&cp, len - cp.len); |
| } |
| |
| if (b->rdx > cp.rdx) bc_num_extend(&cp, b->rdx - cp.rdx); |
| cp.rdx -= b->rdx; |
| if (scale > cp.rdx) bc_num_extend(&cp, scale - cp.rdx); |
| |
| if (b->rdx == b->len) { |
| for (;;) { |
| if (len == 0) break; |
| len--; |
| if (b->num[len] != 0) |
| break; |
| } |
| len++; |
| } |
| |
| if (cp.cap == cp.len) bc_num_expand(&cp, cp.len + 1); |
| |
| // We want an extra zero in front to make things simpler. |
| cp.num[cp.len++] = 0; |
| end = cp.len - len; |
| |
| bc_num_expand(c, cp.len); |
| |
| bc_num_zero(c); |
| memset(c->num + end, 0, (c->cap - end) * sizeof(BcDig)); |
| c->rdx = cp.rdx; |
| c->len = cp.len; |
| |
| s = BC_STATUS_SUCCESS; |
| for (i = end - 1; i < end; --i) { |
| BcDig *n, q; |
| n = cp.num + i; |
| for (q = 0; n[len] != 0 || bc_num_compare(n, b->num, len) >= 0; ++q) |
| bc_num_subArrays(n, b->num, len); |
| c->num[i] = q; |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| // a=2^100000 |
| // scale=40000 |
| // 1/a <- without check below, this will not be interruptible |
| if (G_interrupt) { |
| s = BC_STATUS_FAILURE; |
| break; |
| } |
| #endif |
| } |
| |
| bc_num_retireMul(c, scale, a->neg, b->neg); |
| bc_num_free(&cp); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_d(...) (zbc_num_d(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_r(BcNum *a, BcNum *b, BcNum *restrict c, |
| BcNum *restrict d, size_t scale, size_t ts) |
| { |
| BcStatus s; |
| BcNum temp; |
| bool neg; |
| |
| if (b->len == 0) |
| RETURN_STATUS(bc_error("divide by zero")); |
| |
| if (a->len == 0) { |
| bc_num_setToZero(d, ts); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| bc_num_init(&temp, d->cap); |
| s = zbc_num_d(a, b, c, scale); |
| if (s) goto err; |
| |
| if (scale != 0) scale = ts; |
| |
| s = zbc_num_m(c, b, &temp, scale); |
| if (s) goto err; |
| s = zbc_num_sub(a, &temp, d, scale); |
| if (s) goto err; |
| |
| if (ts > d->rdx && d->len) bc_num_extend(d, ts - d->rdx); |
| |
| neg = d->neg; |
| bc_num_retireMul(d, ts, a->neg, b->neg); |
| d->neg = neg; |
| err: |
| bc_num_free(&temp); |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_r(...) (zbc_num_r(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_rem(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale) |
| { |
| BcStatus s; |
| BcNum c1; |
| size_t ts = BC_MAX(scale + b->rdx, a->rdx), len = BC_NUM_MREQ(a, b, ts); |
| |
| bc_num_init(&c1, len); |
| s = zbc_num_r(a, b, &c1, c, scale, ts); |
| bc_num_free(&c1); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_rem(...) (zbc_num_rem(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static FAST_FUNC BC_STATUS zbc_num_p(BcNum *a, BcNum *b, BcNum *restrict c, size_t scale) |
| { |
| BcStatus s = BC_STATUS_SUCCESS; |
| BcNum copy; |
| unsigned long pow; |
| size_t i, powrdx, resrdx; |
| bool neg; |
| |
| // GNU bc does not allow 2^2.0 - we do |
| for (i = 0; i < b->rdx; i++) |
| if (b->num[i] != 0) |
| RETURN_STATUS(bc_error("not an integer")); |
| |
| if (b->len == 0) { |
| bc_num_one(c); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (a->len == 0) { |
| bc_num_setToZero(c, scale); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (BC_NUM_ONE(b)) { |
| if (!b->neg) |
| bc_num_copy(c, a); |
| else |
| s = zbc_num_inv(a, c, scale); |
| RETURN_STATUS(s); |
| } |
| |
| neg = b->neg; |
| s = zbc_num_ulong_abs(b, &pow); |
| if (s) RETURN_STATUS(s); |
| // b is not used beyond this point |
| |
| bc_num_init(©, a->len); |
| bc_num_copy(©, a); |
| |
| if (!neg) { |
| if (a->rdx > scale) |
| scale = a->rdx; |
| if (a->rdx * pow < scale) |
| scale = a->rdx * pow; |
| } |
| |
| |
| for (powrdx = a->rdx; !(pow & 1); pow >>= 1) { |
| powrdx <<= 1; |
| s = zbc_num_mul(©, ©, ©, powrdx); |
| if (s) goto err; |
| // Not needed: zbc_num_mul() has a check for ^C: |
| //if (G_interrupt) { |
| // s = BC_STATUS_FAILURE; |
| // goto err; |
| //} |
| } |
| |
| bc_num_copy(c, ©); |
| |
| for (resrdx = powrdx, pow >>= 1; pow != 0; pow >>= 1) { |
| powrdx <<= 1; |
| s = zbc_num_mul(©, ©, ©, powrdx); |
| if (s) goto err; |
| |
| if (pow & 1) { |
| resrdx += powrdx; |
| s = zbc_num_mul(c, ©, c, resrdx); |
| if (s) goto err; |
| } |
| // Not needed: zbc_num_mul() has a check for ^C: |
| //if (G_interrupt) { |
| // s = BC_STATUS_FAILURE; |
| // goto err; |
| //} |
| } |
| |
| if (neg) { |
| s = zbc_num_inv(c, c, scale); |
| if (s) goto err; |
| } |
| |
| if (c->rdx > scale) bc_num_truncate(c, c->rdx - scale); |
| |
| // We can't use bc_num_clean() here. |
| for (i = 0; i < c->len; ++i) |
| if (c->num[i] != 0) |
| goto skip; |
| bc_num_setToZero(c, scale); |
| skip: |
| |
| err: |
| bc_num_free(©); |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_p(...) (zbc_num_p(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_num_sqrt(BcNum *a, BcNum *restrict b, size_t scale) |
| { |
| BcStatus s; |
| BcNum num1, num2, half, f, fprime, *x0, *x1, *temp; |
| size_t pow, len, digs, digs1, resrdx, req, times = 0; |
| ssize_t cmp = 1, cmp1 = SSIZE_MAX, cmp2 = SSIZE_MAX; |
| |
| req = BC_MAX(scale, a->rdx) + ((BC_NUM_INT(a) + 1) >> 1) + 1; |
| bc_num_expand(b, req); |
| |
| if (a->len == 0) { |
| bc_num_setToZero(b, scale); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| if (a->neg) { |
| RETURN_STATUS(bc_error("negative number")); |
| } |
| if (BC_NUM_ONE(a)) { |
| bc_num_one(b); |
| bc_num_extend(b, scale); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| scale = BC_MAX(scale, a->rdx) + 1; |
| len = a->len + scale; |
| |
| bc_num_init(&num1, len); |
| bc_num_init(&num2, len); |
| bc_num_init_DEF_SIZE(&half); |
| |
| bc_num_one(&half); |
| half.num[0] = 5; |
| half.rdx = 1; |
| |
| bc_num_init(&f, len); |
| bc_num_init(&fprime, len); |
| |
| x0 = &num1; |
| x1 = &num2; |
| |
| bc_num_one(x0); |
| pow = BC_NUM_INT(a); |
| |
| if (pow) { |
| if (pow & 1) |
| x0->num[0] = 2; |
| else |
| x0->num[0] = 6; |
| |
| pow -= 2 - (pow & 1); |
| |
| bc_num_extend(x0, pow); |
| |
| // Make sure to move the radix back. |
| x0->rdx -= pow; |
| } |
| |
| x0->rdx = digs = digs1 = 0; |
| resrdx = scale + 2; |
| len = BC_NUM_INT(x0) + resrdx - 1; |
| |
| while (cmp != 0 || digs < len) { |
| s = zbc_num_div(a, x0, &f, resrdx); |
| if (s) goto err; |
| s = zbc_num_add(x0, &f, &fprime, resrdx); |
| if (s) goto err; |
| s = zbc_num_mul(&fprime, &half, x1, resrdx); |
| if (s) goto err; |
| |
| cmp = bc_num_cmp(x1, x0); |
| digs = x1->len - (unsigned long long) llabs(cmp); |
| |
| if (cmp == cmp2 && digs == digs1) |
| times += 1; |
| else |
| times = 0; |
| |
| resrdx += times > 4; |
| |
| cmp2 = cmp1; |
| cmp1 = cmp; |
| digs1 = digs; |
| |
| temp = x0; |
| x0 = x1; |
| x1 = temp; |
| } |
| |
| bc_num_copy(b, x0); |
| scale -= 1; |
| if (b->rdx > scale) bc_num_truncate(b, b->rdx - scale); |
| err: |
| bc_num_free(&fprime); |
| bc_num_free(&f); |
| bc_num_free(&half); |
| bc_num_free(&num2); |
| bc_num_free(&num1); |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_sqrt(...) (zbc_num_sqrt(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_num_divmod(BcNum *a, BcNum *b, BcNum *c, BcNum *d, |
| size_t scale) |
| { |
| BcStatus s; |
| BcNum num2, *ptr_a; |
| bool init = false; |
| size_t ts = BC_MAX(scale + b->rdx, a->rdx), len = BC_NUM_MREQ(a, b, ts); |
| |
| if (c == a) { |
| memcpy(&num2, c, sizeof(BcNum)); |
| ptr_a = &num2; |
| bc_num_init(c, len); |
| init = true; |
| } else { |
| ptr_a = a; |
| bc_num_expand(c, len); |
| } |
| |
| s = zbc_num_r(ptr_a, b, c, d, scale, ts); |
| |
| if (init) bc_num_free(&num2); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_num_divmod(...) (zbc_num_divmod(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_DC |
| static BC_STATUS zdc_num_modexp(BcNum *a, BcNum *b, BcNum *c, BcNum *restrict d) |
| { |
| BcStatus s; |
| BcNum base, exp, two, temp; |
| BcDig two_digs[2]; |
| |
| if (c->len == 0) |
| RETURN_STATUS(bc_error("divide by zero")); |
| if (a->rdx || b->rdx || c->rdx) |
| RETURN_STATUS(bc_error("not an integer")); |
| if (b->neg) |
| RETURN_STATUS(bc_error("negative number")); |
| |
| bc_num_expand(d, c->len); |
| bc_num_init(&base, c->len); |
| bc_num_init(&exp, b->len); |
| bc_num_init(&temp, b->len); |
| |
| two.cap = ARRAY_SIZE(two_digs); |
| two.num = two_digs; |
| bc_num_one(&two); |
| two_digs[0] = 2; |
| |
| bc_num_one(d); |
| |
| s = zbc_num_rem(a, c, &base, 0); |
| if (s) goto err; |
| bc_num_copy(&exp, b); |
| |
| while (exp.len != 0) { |
| s = zbc_num_divmod(&exp, &two, &exp, &temp, 0); |
| if (s) goto err; |
| |
| if (BC_NUM_ONE(&temp)) { |
| s = zbc_num_mul(d, &base, &temp, 0); |
| if (s) goto err; |
| s = zbc_num_rem(&temp, c, d, 0); |
| if (s) goto err; |
| } |
| |
| s = zbc_num_mul(&base, &base, &temp, 0); |
| if (s) goto err; |
| s = zbc_num_rem(&temp, c, &base, 0); |
| if (s) goto err; |
| } |
| err: |
| bc_num_free(&temp); |
| bc_num_free(&exp); |
| bc_num_free(&base); |
| RETURN_STATUS(s); |
| } |
| #define zdc_num_modexp(...) (zdc_num_modexp(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_DC |
| |
| static FAST_FUNC void bc_string_free(void *string) |
| { |
| free(*(char**)string); |
| } |
| |
| static void bc_func_init(BcFunc *f) |
| { |
| bc_char_vec_init(&f->code); |
| IF_BC(bc_vec_init(&f->labels, sizeof(size_t), NULL);) |
| IF_BC(bc_vec_init(&f->autos, sizeof(BcId), bc_id_free);) |
| IF_BC(bc_vec_init(&f->strs, sizeof(char *), bc_string_free);) |
| IF_BC(bc_vec_init(&f->consts, sizeof(char *), bc_string_free);) |
| IF_BC(f->nparams = 0;) |
| } |
| |
| static FAST_FUNC void bc_func_free(void *func) |
| { |
| BcFunc *f = (BcFunc *) func; |
| bc_vec_free(&f->code); |
| IF_BC(bc_vec_free(&f->labels);) |
| IF_BC(bc_vec_free(&f->autos);) |
| IF_BC(bc_vec_free(&f->strs);) |
| IF_BC(bc_vec_free(&f->consts);) |
| } |
| |
| static void bc_array_expand(BcVec *a, size_t len); |
| |
| static void bc_array_init(BcVec *a, bool nums) |
| { |
| if (nums) |
| bc_vec_init(a, sizeof(BcNum), bc_num_free); |
| else |
| bc_vec_init(a, sizeof(BcVec), bc_vec_free); |
| bc_array_expand(a, 1); |
| } |
| |
| static void bc_array_expand(BcVec *a, size_t len) |
| { |
| if (a->dtor == bc_num_free |
| // && a->size == sizeof(BcNum) - always true |
| ) { |
| BcNum n; |
| while (len > a->len) { |
| bc_num_init_DEF_SIZE(&n); |
| bc_vec_push(a, &n); |
| } |
| } else { |
| BcVec v; |
| while (len > a->len) { |
| bc_array_init(&v, true); |
| bc_vec_push(a, &v); |
| } |
| } |
| } |
| |
| static void bc_array_copy(BcVec *d, const BcVec *s) |
| { |
| BcNum *dnum, *snum; |
| size_t i; |
| |
| bc_vec_pop_all(d); |
| bc_vec_expand(d, s->cap); |
| d->len = s->len; |
| |
| dnum = (void*)d->v; |
| snum = (void*)s->v; |
| for (i = 0; i < s->len; i++, dnum++, snum++) { |
| bc_num_init(dnum, snum->len); |
| bc_num_copy(dnum, snum); |
| } |
| } |
| |
| #if ENABLE_DC |
| static void dc_result_copy(BcResult *d, BcResult *src) |
| { |
| d->t = src->t; |
| |
| switch (d->t) { |
| case XC_RESULT_TEMP: |
| case XC_RESULT_IBASE: |
| case XC_RESULT_SCALE: |
| case XC_RESULT_OBASE: |
| bc_num_init(&d->d.n, src->d.n.len); |
| bc_num_copy(&d->d.n, &src->d.n); |
| break; |
| case XC_RESULT_VAR: |
| case XC_RESULT_ARRAY: |
| case XC_RESULT_ARRAY_ELEM: |
| d->d.id.name = xstrdup(src->d.id.name); |
| break; |
| case XC_RESULT_CONSTANT: |
| IF_BC(case BC_RESULT_LAST:) |
| IF_BC(case BC_RESULT_ONE:) |
| case XC_RESULT_STR: |
| memcpy(&d->d.n, &src->d.n, sizeof(BcNum)); |
| break; |
| } |
| } |
| #endif // ENABLE_DC |
| |
| static FAST_FUNC void bc_result_free(void *result) |
| { |
| BcResult *r = (BcResult *) result; |
| |
| switch (r->t) { |
| case XC_RESULT_TEMP: |
| case XC_RESULT_IBASE: |
| case XC_RESULT_SCALE: |
| case XC_RESULT_OBASE: |
| bc_num_free(&r->d.n); |
| break; |
| case XC_RESULT_VAR: |
| case XC_RESULT_ARRAY: |
| case XC_RESULT_ARRAY_ELEM: |
| free(r->d.id.name); |
| break; |
| default: |
| // Do nothing. |
| break; |
| } |
| } |
| |
| static int bad_input_byte(char c) |
| { |
| if ((c < ' ' && c != '\t' && c != '\r' && c != '\n') // also allow '\v' '\f'? |
| || c > 0x7e |
| ) { |
| bc_error_fmt("illegal character 0x%02x", c); |
| return 1; |
| } |
| return 0; |
| } |
| |
| static void xc_read_line(BcVec *vec, FILE *fp) |
| { |
| again: |
| bc_vec_pop_all(vec); |
| fflush_and_check(); |
| |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| if (G_interrupt) { // ^C was pressed |
| intr: |
| if (fp != stdin) { |
| // ^C while running a script (bc SCRIPT): die. |
| // We do not return to interactive prompt: |
| // user might be running us from a shell, |
| // and SCRIPT might be intended to terminate |
| // (e.g. contain a "halt" stmt). |
| // ^C dropping user into a bc prompt instead of |
| // the shell would be unexpected. |
| xfunc_die(); |
| } |
| // ^C while interactive input |
| G_interrupt = 0; |
| // GNU bc says "interrupted execution." |
| // GNU dc says "Interrupt!" |
| fputs("\ninterrupted execution\n", stderr); |
| } |
| |
| # if ENABLE_FEATURE_EDITING |
| if (G_ttyin && fp == stdin) { |
| int n, i; |
| # define line_buf bb_common_bufsiz1 |
| n = read_line_input(G.line_input_state, "", line_buf, COMMON_BUFSIZE); |
| if (n <= 0) { // read errors or EOF, or ^D, or ^C |
| if (n == 0) // ^C |
| goto intr; |
| bc_vec_pushZeroByte(vec); // ^D or EOF (or error) |
| return; |
| } |
| i = 0; |
| for (;;) { |
| char c = line_buf[i++]; |
| if (!c) break; |
| if (bad_input_byte(c)) goto again; |
| } |
| bc_vec_string(vec, n, line_buf); |
| # undef line_buf |
| } else |
| # endif |
| #endif |
| { |
| int c; |
| bool bad_chars = 0; |
| |
| do { |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| if (G_interrupt) { |
| // ^C was pressed: ignore entire line, get another one |
| bc_vec_pop_all(vec); |
| goto intr; |
| } |
| #endif |
| do c = fgetc(fp); while (c == '\0'); |
| if (c == EOF) { |
| if (ferror(fp)) |
| bb_perror_msg_and_die("input error"); |
| // Note: EOF does not append '\n' |
| break; |
| } |
| bad_chars |= bad_input_byte(c); |
| bc_vec_pushByte(vec, (char)c); |
| } while (c != '\n'); |
| |
| if (bad_chars) { |
| // Bad chars on this line |
| if (!G.prs.lex_filename) { // stdin |
| // ignore entire line, get another one |
| goto again; |
| } |
| bb_perror_msg_and_die("file '%s' is not text", G.prs.lex_filename); |
| } |
| bc_vec_pushZeroByte(vec); |
| } |
| } |
| |
| // |
| // Parsing routines |
| // |
| |
| static bool xc_num_strValid(const char *val, size_t base) |
| { |
| BcDig b; |
| bool radix; |
| |
| b = (BcDig)(base <= 10 ? base + '0' : base - 10 + 'A'); |
| radix = false; |
| for (;;) { |
| BcDig c = *val++; |
| if (c == '\0') |
| break; |
| if (c == '.') { |
| if (radix) return false; |
| radix = true; |
| continue; |
| } |
| if (c < '0' || c >= b || (c > '9' && c < 'A')) |
| return false; |
| } |
| return true; |
| } |
| |
| // Note: n is already "bc_num_zero()"ed, |
| // leading zeroes in "val" are removed |
| static void bc_num_parseDecimal(BcNum *n, const char *val) |
| { |
| size_t len, i; |
| const char *ptr; |
| |
| len = strlen(val); |
| if (len == 0) |
| return; |
| |
| bc_num_expand(n, len); |
| |
| ptr = strchr(val, '.'); |
| |
| n->rdx = 0; |
| if (ptr != NULL) |
| n->rdx = (size_t)((val + len) - (ptr + 1)); |
| |
| for (i = 0; val[i]; ++i) { |
| if (val[i] != '0' && val[i] != '.') { |
| // Not entirely zero value - convert it, and exit |
| i = len - 1; |
| for (;;) { |
| n->num[n->len] = val[i] - '0'; |
| ++n->len; |
| skip_dot: |
| if (i == 0) break; |
| if (val[--i] == '.') goto skip_dot; |
| } |
| break; |
| } |
| } |
| // if for() exits without hitting if(), the value is entirely zero |
| } |
| |
| // Note: n is already "bc_num_zero()"ed, |
| // leading zeroes in "val" are removed |
| static void bc_num_parseBase(BcNum *n, const char *val, unsigned base_t) |
| { |
| BcStatus s; |
| BcNum temp, mult, result; |
| BcNum base; |
| BcDig base_digs[ULONG_NUM_BUFSIZE]; |
| BcDig c = '\0'; |
| unsigned long v; |
| size_t i, digits; |
| |
| for (i = 0; ; ++i) { |
| if (val[i] == '\0') |
| return; |
| if (val[i] != '.' && val[i] != '0') |
| break; |
| } |
| |
| bc_num_init_DEF_SIZE(&temp); |
| bc_num_init_DEF_SIZE(&mult); |
| base.cap = ARRAY_SIZE(base_digs); |
| base.num = base_digs; |
| bc_num_ulong2num(&base, base_t); |
| |
| for (;;) { |
| c = *val++; |
| if (c == '\0') goto int_err; |
| if (c == '.') break; |
| |
| v = (unsigned long) (c <= '9' ? c - '0' : c - 'A' + 10); |
| |
| s = zbc_num_mul(n, &base, &mult, 0); |
| if (s) goto int_err; |
| bc_num_ulong2num(&temp, v); |
| s = zbc_num_add(&mult, &temp, n, 0); |
| if (s) goto int_err; |
| } |
| |
| bc_num_init(&result, base.len); |
| //bc_num_zero(&result); - already is |
| bc_num_one(&mult); |
| |
| digits = 0; |
| for (;;) { |
| c = *val++; |
| if (c == '\0') break; |
| digits++; |
| |
| v = (unsigned long) (c <= '9' ? c - '0' : c - 'A' + 10); |
| |
| s = zbc_num_mul(&result, &base, &result, 0); |
| if (s) goto err; |
| bc_num_ulong2num(&temp, v); |
| s = zbc_num_add(&result, &temp, &result, 0); |
| if (s) goto err; |
| s = zbc_num_mul(&mult, &base, &mult, 0); |
| if (s) goto err; |
| } |
| |
| s = zbc_num_div(&result, &mult, &result, digits); |
| if (s) goto err; |
| s = zbc_num_add(n, &result, n, digits); |
| if (s) goto err; |
| |
| if (n->len != 0) { |
| if (n->rdx < digits) |
| bc_num_extend(n, digits - n->rdx); |
| } else |
| bc_num_zero(n); |
| err: |
| bc_num_free(&result); |
| int_err: |
| bc_num_free(&mult); |
| bc_num_free(&temp); |
| } |
| |
| static BC_STATUS zxc_num_parse(BcNum *n, const char *val, unsigned base_t) |
| { |
| if (!xc_num_strValid(val, base_t)) |
| RETURN_STATUS(bc_error("bad number string")); |
| |
| bc_num_zero(n); |
| while (*val == '0') val++; |
| |
| if (base_t == 10) |
| bc_num_parseDecimal(n, val); |
| else |
| bc_num_parseBase(n, val, base_t); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zxc_num_parse(...) (zxc_num_parse(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static bool xc_lex_more_input(void) |
| { |
| BcParse *p = &G.prs; |
| |
| bc_vec_pop_all(&G.input_buffer); |
| |
| xc_read_line(&G.input_buffer, G.prs.lex_input_fp); |
| |
| p->lex_inbuf = G.input_buffer.v; |
| // bb_error_msg("G.input_buffer.len:%d '%s'", G.input_buffer.len, G.input_buffer.v); |
| |
| return G.input_buffer.len > 1; |
| } |
| |
| // p->lex_inbuf points to the current string to be parsed. |
| // if p->lex_inbuf points to '\0', it's either EOF or it points after |
| // last processed line's terminating '\n' (and more reading needs to be done |
| // to get next character). |
| // |
| // If you are in a situation where that is a possibility, call peek_inbuf(). |
| // If necessary, it performs more reading and changes p->lex_inbuf, |
| // then it returns *p->lex_inbuf (which will be '\0' only if it's EOF). |
| // After it, just referencing *p->lex_inbuf is valid, and if it wasn't '\0', |
| // it's ok to do p->lex_inbuf++ once without end-of-buffer checking. |
| // |
| // eat_inbuf() is equvalent to "peek_inbuf(); if (c) p->lex_inbuf++": |
| // it returns current char and advances the pointer (if not EOF). |
| // After eat_inbuf(), referencing p->lex_inbuf[-1] and *p->lex_inbuf is valid. |
| // |
| // In many cases, you can use fast *p->lex_inbuf instead of peek_inbuf(): |
| // unless prev char might have been '\n', *p->lex_inbuf is '\0' ONLY |
| // on real EOF, not end-of-buffer. |
| // |
| // bc cases to test interactively: |
| // 1 #comment\ - prints "1<newline>" at once (comment is not continued) |
| // 1 #comment/* - prints "1<newline>" at once |
| // 1 #comment" - prints "1<newline>" at once |
| // 1\#comment - error at once (\ is not a line continuation) |
| // 1 + /*"*/2 - prints "3<newline>" at once |
| // 1 + /*#*/2 - prints "3<newline>" at once |
| // "str\" - prints "str\" at once |
| // "str#" - prints "str#" at once |
| // "str/*" - prints "str/*" at once |
| // "str#\ - waits for second line |
| // end" - ...prints "str#\<newline>end" |
| static char peek_inbuf(void) |
| { |
| if (*G.prs.lex_inbuf == '\0') { |
| if (G.prs.lex_input_fp) |
| if (!xc_lex_more_input()) |
| G.prs.lex_input_fp = NULL; |
| } |
| return *G.prs.lex_inbuf; |
| } |
| static char eat_inbuf(void) |
| { |
| char c = peek_inbuf(); |
| if (c) G.prs.lex_inbuf++; |
| return c; |
| } |
| |
| static void xc_lex_lineComment(void) |
| { |
| BcParse *p = &G.prs; |
| char c; |
| |
| // Try: echo -n '#foo' | bc |
| p->lex = XC_LEX_WHITESPACE; |
| |
| // We depend here on input being done in whole lines: |
| // '\0' which isn't the EOF can only be seen after '\n'. |
| while ((c = *p->lex_inbuf) != '\n' && c != '\0') |
| p->lex_inbuf++; |
| } |
| |
| static void xc_lex_whitespace(void) |
| { |
| BcParse *p = &G.prs; |
| |
| p->lex = XC_LEX_WHITESPACE; |
| for (;;) { |
| // We depend here on input being done in whole lines: |
| // '\0' which isn't the EOF can only be seen after '\n'. |
| char c = *p->lex_inbuf; |
| if (c == '\n') // this is XC_LEX_NLINE, not XC_LEX_WHITESPACE |
| break; |
| if (!isspace(c)) |
| break; |
| p->lex_inbuf++; |
| } |
| } |
| |
| static BC_STATUS zxc_lex_number(char last) |
| { |
| BcParse *p = &G.prs; |
| bool pt; |
| |
| bc_vec_pop_all(&p->lex_strnumbuf); |
| bc_vec_pushByte(&p->lex_strnumbuf, last); |
| |
| pt = (last == '.'); |
| p->lex = XC_LEX_NUMBER; |
| for (;;) { |
| // We depend here on input being done in whole lines: |
| // '\0' which isn't the EOF can only be seen after '\n'. |
| char c = *p->lex_inbuf; |
| check_c: |
| if (c == '\0') |
| break; |
| if (c == '\\' && p->lex_inbuf[1] == '\n') { |
| p->lex_inbuf += 2; |
| p->lex_line++; |
| c = peek_inbuf(); // force next line to be read |
| goto check_c; |
| } |
| if (!isdigit(c) && (c < 'A' || c > 'F')) { |
| if (c != '.') break; |
| // if '.' was already seen, stop on second one: |
| if (pt) break; |
| pt = true; |
| } |
| // c is one of "0-9A-F." |
| last = c; |
| bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf); |
| p->lex_inbuf++; |
| } |
| if (last == '.') // remove trailing '.' if any |
| bc_vec_pop(&p->lex_strnumbuf); |
| bc_vec_pushZeroByte(&p->lex_strnumbuf); |
| |
| G.err_line = G.prs.lex_line; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zxc_lex_number(...) (zxc_lex_number(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void xc_lex_name(void) |
| { |
| BcParse *p = &G.prs; |
| size_t i; |
| const char *buf; |
| |
| p->lex = XC_LEX_NAME; |
| |
| // Since names can't cross lines with \<newline>, |
| // we depend on the fact that whole line is in the buffer |
| i = 0; |
| buf = p->lex_inbuf - 1; |
| for (;;) { |
| char c = buf[i]; |
| if ((c < 'a' || c > 'z') && !isdigit(c) && c != '_') break; |
| i++; |
| } |
| |
| #if 0 // We do not protect against people with gigabyte-long names |
| // This check makes sense only if size_t is (much) larger than BC_MAX_STRING. |
| if (SIZE_MAX > (BC_MAX_STRING | 0xff)) { |
| if (i > BC_MAX_STRING) |
| return bc_error("name too long: must be [1,"BC_MAX_STRING_STR"]"); |
| } |
| #endif |
| bc_vec_string(&p->lex_strnumbuf, i, buf); |
| |
| // Increment the index. We minus 1 because it has already been incremented. |
| p->lex_inbuf += i - 1; |
| |
| //return BC_STATUS_SUCCESS; |
| } |
| |
| IF_BC(static BC_STATUS zbc_lex_token(void);) |
| IF_DC(static BC_STATUS zdc_lex_token(void);) |
| #define zbc_lex_token(...) (zbc_lex_token(__VA_ARGS__) COMMA_SUCCESS) |
| #define zdc_lex_token(...) (zdc_lex_token(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_lex_next(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| p->lex_last = p->lex; |
| //why? |
| // if (p->lex_last == XC_LEX_EOF) |
| // RETURN_STATUS(bc_error("end of file")); |
| |
| // Loop until failure or we don't have whitespace. This |
| // is so the parser doesn't get inundated with whitespace. |
| // Comments are also XC_LEX_WHITESPACE tokens and eaten here. |
| s = BC_STATUS_SUCCESS; |
| do { |
| if (*p->lex_inbuf == '\0') { |
| p->lex = XC_LEX_EOF; |
| if (peek_inbuf() == '\0') |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| p->lex_next_at = p->lex_inbuf; |
| dbg_lex("next string to parse:'%.*s'", |
| (int)(strchrnul(p->lex_next_at, '\n') - p->lex_next_at), |
| p->lex_next_at |
| ); |
| if (IS_BC) { |
| IF_BC(s = zbc_lex_token()); |
| } else { |
| IF_DC(s = zdc_lex_token()); |
| } |
| } while (!s && p->lex == XC_LEX_WHITESPACE); |
| dbg_lex("p->lex from string:%d", p->lex); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_lex_next(...) (zxc_lex_next(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_BC |
| static BC_STATUS zbc_lex_skip_if_at_NLINE(void) |
| { |
| if (G.prs.lex == XC_LEX_NLINE) |
| RETURN_STATUS(zxc_lex_next()); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_lex_skip_if_at_NLINE(...) (zbc_lex_skip_if_at_NLINE(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_lex_next_and_skip_NLINE(void) |
| { |
| BcStatus s; |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| // if(cond)<newline>stmt is accepted too (but not 2+ newlines) |
| s = zbc_lex_skip_if_at_NLINE(); |
| RETURN_STATUS(s); |
| } |
| #define zbc_lex_next_and_skip_NLINE(...) (zbc_lex_next_and_skip_NLINE(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_lex_identifier(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| unsigned i; |
| const char *buf = p->lex_inbuf - 1; |
| |
| for (i = 0; i < ARRAY_SIZE(bc_lex_kws); ++i) { |
| const char *keyword8 = bc_lex_kws[i].name8; |
| unsigned j = 0; |
| while (buf[j] != '\0' && buf[j] == keyword8[j]) { |
| j++; |
| if (j == 8) goto match; |
| } |
| if (keyword8[j] != '\0') |
| continue; |
| match: |
| // buf starts with keyword bc_lex_kws[i] |
| if (isalnum(buf[j]) || buf[j]=='_') |
| continue; // "ifz" does not match "if" keyword, "if." does |
| p->lex = BC_LEX_KEY_1st_keyword + i; |
| if (!keyword_is_POSIX(i)) { |
| s = zbc_posix_error_fmt("%sthe '%.8s' keyword", "POSIX does not allow ", bc_lex_kws[i].name8); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| // We minus 1 because the index has already been incremented. |
| p->lex_inbuf += j - 1; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| xc_lex_name(); |
| s = BC_STATUS_SUCCESS; |
| |
| if (p->lex_strnumbuf.len > 2) { |
| // Prevent this: |
| // >>> qwe=1 |
| // bc: POSIX only allows one character names; this is bad: 'qwe=1 |
| // ' |
| unsigned len = strchrnul(buf, '\n') - buf; |
| s = zbc_posix_error_fmt("POSIX only allows one character names; this is bad: '%.*s'", len, buf); |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_lex_identifier(...) (zbc_lex_identifier(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_lex_string(void) |
| { |
| BcParse *p = &G.prs; |
| |
| p->lex = XC_LEX_STR; |
| bc_vec_pop_all(&p->lex_strnumbuf); |
| for (;;) { |
| char c = peek_inbuf(); // strings can cross lines |
| if (c == '\0') { |
| RETURN_STATUS(bc_error("unterminated string")); |
| } |
| if (c == '"') |
| break; |
| if (c == '\n') |
| p->lex_line++; |
| bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf); |
| p->lex_inbuf++; |
| } |
| bc_vec_pushZeroByte(&p->lex_strnumbuf); |
| p->lex_inbuf++; |
| |
| G.err_line = p->lex_line; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_lex_string(...) (zbc_lex_string(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void parse_lex_by_checking_eq_sign(unsigned with_and_without) |
| { |
| BcParse *p = &G.prs; |
| if (*p->lex_inbuf == '=') { |
| // ^^^ not using peek_inbuf() since '==' etc can't be split across lines |
| p->lex_inbuf++; |
| with_and_without >>= 8; // store "with" value |
| } // else store "without" value |
| p->lex = (with_and_without & 0xff); |
| } |
| #define parse_lex_by_checking_eq_sign(with, without) \ |
| parse_lex_by_checking_eq_sign(((with)<<8)|(without)) |
| |
| static BC_STATUS zbc_lex_comment(void) |
| { |
| BcParse *p = &G.prs; |
| |
| p->lex = XC_LEX_WHITESPACE; |
| // here lex_inbuf is at '*' of opening comment delimiter |
| for (;;) { |
| char c; |
| |
| p->lex_inbuf++; |
| c = peek_inbuf(); |
| check_star: |
| if (c == '*') { |
| p->lex_inbuf++; |
| c = *p->lex_inbuf; // no need to peek_inbuf() |
| if (c == '/') |
| break; |
| goto check_star; |
| } |
| if (c == '\0') { |
| RETURN_STATUS(bc_error("unterminated comment")); |
| } |
| if (c == '\n') |
| p->lex_line++; |
| } |
| p->lex_inbuf++; // skip trailing '/' |
| |
| G.err_line = p->lex_line; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_lex_comment(...) (zbc_lex_comment(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #undef zbc_lex_token |
| static BC_STATUS zbc_lex_token(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s = BC_STATUS_SUCCESS; |
| char c = eat_inbuf(); |
| char c2; |
| |
| // This is the workhorse of the lexer. |
| switch (c) { |
| // case '\0': // probably never reached |
| // p->lex_inbuf--; |
| // p->lex = XC_LEX_EOF; |
| // break; |
| case '\n': |
| p->lex_line++; |
| p->lex = XC_LEX_NLINE; |
| break; |
| case '\t': |
| case '\v': |
| case '\f': |
| case '\r': |
| case ' ': |
| xc_lex_whitespace(); |
| break; |
| case '!': |
| parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_NE, BC_LEX_OP_BOOL_NOT); |
| if (p->lex == BC_LEX_OP_BOOL_NOT) { |
| s = zbc_POSIX_does_not_allow_bool_ops_this_is_bad("!"); |
| if (s) RETURN_STATUS(s); |
| } |
| break; |
| case '"': |
| s = zbc_lex_string(); |
| break; |
| case '#': |
| s = zbc_POSIX_does_not_allow("'#' script comments"); |
| if (s) RETURN_STATUS(s); |
| xc_lex_lineComment(); |
| break; |
| case '%': |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MODULUS, XC_LEX_OP_MODULUS); |
| break; |
| case '&': |
| c2 = *p->lex_inbuf; |
| if (c2 == '&') { |
| s = zbc_POSIX_does_not_allow_bool_ops_this_is_bad("&&"); |
| if (s) RETURN_STATUS(s); |
| p->lex_inbuf++; |
| p->lex = BC_LEX_OP_BOOL_AND; |
| } else { |
| p->lex = XC_LEX_INVALID; |
| s = bc_error_bad_character('&'); |
| } |
| break; |
| case '(': |
| case ')': |
| p->lex = (BcLexType)(c - '(' + BC_LEX_LPAREN); |
| break; |
| case '*': |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MULTIPLY, XC_LEX_OP_MULTIPLY); |
| break; |
| case '+': |
| c2 = *p->lex_inbuf; |
| if (c2 == '+') { |
| p->lex_inbuf++; |
| p->lex = BC_LEX_OP_INC; |
| } else |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_PLUS, XC_LEX_OP_PLUS); |
| break; |
| case ',': |
| p->lex = BC_LEX_COMMA; |
| break; |
| case '-': |
| c2 = *p->lex_inbuf; |
| if (c2 == '-') { |
| p->lex_inbuf++; |
| p->lex = BC_LEX_OP_DEC; |
| } else |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_MINUS, XC_LEX_OP_MINUS); |
| break; |
| case '.': |
| if (isdigit(*p->lex_inbuf)) |
| s = zxc_lex_number(c); |
| else { |
| p->lex = BC_LEX_KEY_LAST; |
| s = zbc_POSIX_does_not_allow("'.' as 'last'"); |
| } |
| break; |
| case '/': |
| c2 = *p->lex_inbuf; |
| if (c2 == '*') |
| s = zbc_lex_comment(); |
| else |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_DIVIDE, XC_LEX_OP_DIVIDE); |
| break; |
| case '0': |
| case '1': |
| case '2': |
| case '3': |
| case '4': |
| case '5': |
| case '6': |
| case '7': |
| case '8': |
| case '9': |
| case 'A': |
| case 'B': |
| case 'C': |
| case 'D': |
| case 'E': |
| case 'F': |
| s = zxc_lex_number(c); |
| break; |
| case ';': |
| p->lex = BC_LEX_SCOLON; |
| break; |
| case '<': |
| parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_LE, XC_LEX_OP_REL_LT); |
| break; |
| case '=': |
| parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_EQ, BC_LEX_OP_ASSIGN); |
| break; |
| case '>': |
| parse_lex_by_checking_eq_sign(XC_LEX_OP_REL_GE, XC_LEX_OP_REL_GT); |
| break; |
| case '[': |
| case ']': |
| p->lex = (BcLexType)(c - '[' + BC_LEX_LBRACKET); |
| break; |
| case '\\': |
| if (*p->lex_inbuf == '\n') { |
| p->lex = XC_LEX_WHITESPACE; |
| p->lex_inbuf++; |
| } else |
| s = bc_error_bad_character(c); |
| break; |
| case '^': |
| parse_lex_by_checking_eq_sign(BC_LEX_OP_ASSIGN_POWER, XC_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': |
| s = zbc_lex_identifier(); |
| break; |
| case '{': |
| case '}': |
| p->lex = (BcLexType)(c - '{' + BC_LEX_LBRACE); |
| break; |
| case '|': |
| c2 = *p->lex_inbuf; |
| if (c2 == '|') { |
| s = zbc_POSIX_does_not_allow_bool_ops_this_is_bad("||"); |
| if (s) RETURN_STATUS(s); |
| p->lex_inbuf++; |
| p->lex = BC_LEX_OP_BOOL_OR; |
| } else { |
| p->lex = XC_LEX_INVALID; |
| s = bc_error_bad_character(c); |
| } |
| break; |
| default: |
| p->lex = XC_LEX_INVALID; |
| s = bc_error_bad_character(c); |
| break; |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_lex_token(...) (zbc_lex_token(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_BC |
| |
| #if ENABLE_DC |
| static BC_STATUS zdc_lex_register(void) |
| { |
| BcParse *p = &G.prs; |
| if (G_exreg && isspace(*p->lex_inbuf)) { |
| xc_lex_whitespace(); // eats whitespace (but not newline) |
| p->lex_inbuf++; // xc_lex_name() expects this |
| xc_lex_name(); |
| } else { |
| bc_vec_pop_all(&p->lex_strnumbuf); |
| bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf++); |
| bc_vec_pushZeroByte(&p->lex_strnumbuf); |
| p->lex = XC_LEX_NAME; |
| } |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zdc_lex_register(...) (zdc_lex_register(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_lex_string(void) |
| { |
| BcParse *p = &G.prs; |
| size_t depth; |
| |
| p->lex = XC_LEX_STR; |
| bc_vec_pop_all(&p->lex_strnumbuf); |
| |
| depth = 1; |
| for (;;) { |
| char c = peek_inbuf(); |
| if (c == '\0') { |
| RETURN_STATUS(bc_error("unterminated string")); |
| } |
| if (c == '[') depth++; |
| if (c == ']') |
| if (--depth == 0) |
| break; |
| if (c == '\n') |
| p->lex_line++; |
| bc_vec_push(&p->lex_strnumbuf, p->lex_inbuf); |
| p->lex_inbuf++; |
| } |
| bc_vec_pushZeroByte(&p->lex_strnumbuf); |
| p->lex_inbuf++; // skip trailing ']' |
| |
| G.err_line = p->lex_line; |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zdc_lex_string(...) (zdc_lex_string(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #undef zdc_lex_token |
| static BC_STATUS zdc_lex_token(void) |
| { |
| static const //BcLexType - should be this type, but narrower type saves size: |
| uint8_t |
| dc_lex_regs[] ALIGN1 = { |
| XC_LEX_OP_REL_EQ, XC_LEX_OP_REL_LE, XC_LEX_OP_REL_GE, XC_LEX_OP_REL_NE, |
| XC_LEX_OP_REL_LT, XC_LEX_OP_REL_GT, DC_LEX_SCOLON, DC_LEX_COLON, |
| DC_LEX_ELSE, DC_LEX_LOAD, DC_LEX_LOAD_POP, DC_LEX_OP_ASSIGN, |
| DC_LEX_STORE_PUSH, |
| }; |
| |
| BcParse *p = &G.prs; |
| BcStatus s; |
| char c, c2; |
| size_t i; |
| |
| for (i = 0; i < ARRAY_SIZE(dc_lex_regs); ++i) { |
| if (p->lex_last == dc_lex_regs[i]) |
| RETURN_STATUS(zdc_lex_register()); |
| } |
| |
| s = BC_STATUS_SUCCESS; |
| c = eat_inbuf(); |
| if (c >= '%' && c <= '~' |
| && (p->lex = dc_char_to_LEX[c - '%']) != XC_LEX_INVALID |
| ) { |
| RETURN_STATUS(s); |
| } |
| |
| // This is the workhorse of the lexer. |
| switch (c) { |
| // case '\0': // probably never reached |
| // p->lex = XC_LEX_EOF; |
| // break; |
| case '\n': |
| // '\n' is XC_LEX_NLINE, not XC_LEX_WHITESPACE |
| // (and "case '\n':" is not just empty here) |
| // only to allow interactive dc have a way to exit |
| // "parse" stage of "parse,execute" loop |
| // on <enter>, not on _next_ token (which would mean |
| // commands are not executed on pressing <enter>). |
| // IOW: typing "1p<enter>" should print "1" _at once_, |
| // not after some more input. |
| p->lex_line++; |
| p->lex = XC_LEX_NLINE; |
| break; |
| case '\t': |
| case '\v': |
| case '\f': |
| case '\r': |
| case ' ': |
| xc_lex_whitespace(); |
| break; |
| case '!': |
| c2 = *p->lex_inbuf; |
| if (c2 == '=') |
| p->lex = XC_LEX_OP_REL_NE; |
| else if (c2 == '<') |
| p->lex = XC_LEX_OP_REL_LE; |
| else if (c2 == '>') |
| p->lex = XC_LEX_OP_REL_GE; |
| else |
| RETURN_STATUS(bc_error_bad_character(c)); |
| p->lex_inbuf++; |
| break; |
| case '#': |
| xc_lex_lineComment(); |
| break; |
| case '.': |
| if (isdigit(*p->lex_inbuf)) |
| s = zxc_lex_number(c); |
| else |
| s = bc_error_bad_character(c); |
| break; |
| case '0': |
| case '1': |
| case '2': |
| case '3': |
| case '4': |
| case '5': |
| case '6': |
| case '7': |
| case '8': |
| case '9': |
| case 'A': |
| case 'B': |
| case 'C': |
| case 'D': |
| case 'E': |
| case 'F': |
| s = zxc_lex_number(c); |
| break; |
| case '[': |
| s = zdc_lex_string(); |
| break; |
| default: |
| p->lex = XC_LEX_INVALID; |
| s = bc_error_bad_character(c); |
| break; |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zdc_lex_token(...) (zdc_lex_token(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_DC |
| |
| static void xc_parse_push(char i) |
| { |
| BcVec *code = &G.prs.func->code; |
| dbg_compile("%s:%d pushing bytecode %zd:%d", __func__, __LINE__, code->len, i); |
| bc_vec_pushByte(code, i); |
| } |
| |
| static void xc_parse_pushName(char *name) |
| { |
| #if 1 |
| BcVec *code = &G.prs.func->code; |
| size_t pos = code->len; |
| size_t len = strlen(name) + 1; |
| |
| bc_vec_expand(code, pos + len); |
| strcpy(code->v + pos, name); |
| code->len = pos + len; |
| #else |
| // Smaller code, but way slow: |
| do { |
| xc_parse_push(*name); |
| } while (*name++); |
| #endif |
| } |
| |
| // Indexes < 0xfc are encoded verbatim, else first byte is |
| // 0xfc, 0xfd, 0xfe or 0xff, encoding "1..4 bytes", |
| // followed by that many bytes, lsb first. |
| // (The above describes 32-bit case). |
| #define SMALL_INDEX_LIMIT (0x100 - sizeof(size_t)) |
| |
| static void xc_parse_pushIndex(size_t idx) |
| { |
| size_t mask; |
| unsigned amt; |
| |
| dbg_lex("%s:%d pushing index %zd", __func__, __LINE__, idx); |
| if (idx < SMALL_INDEX_LIMIT) { |
| goto push_idx; |
| } |
| |
| mask = ((size_t)0xff) << (sizeof(idx) * 8 - 8); |
| amt = sizeof(idx); |
| do { |
| if (idx & mask) break; |
| mask >>= 8; |
| amt--; |
| } while (amt != 0); |
| |
| xc_parse_push(SMALL_INDEX_LIMIT + amt); |
| |
| while (idx != 0) { |
| push_idx: |
| xc_parse_push((unsigned char)idx); |
| idx >>= 8; |
| } |
| } |
| |
| #if ENABLE_BC |
| static void bc_parse_pushJUMP(size_t idx) |
| { |
| xc_parse_push(BC_INST_JUMP); |
| xc_parse_pushIndex(idx); |
| } |
| |
| static void bc_parse_pushJUMP_ZERO(size_t idx) |
| { |
| xc_parse_push(BC_INST_JUMP_ZERO); |
| xc_parse_pushIndex(idx); |
| } |
| |
| static BC_STATUS zbc_parse_pushSTR(void) |
| { |
| BcParse *p = &G.prs; |
| char *str = xstrdup(p->lex_strnumbuf.v); |
| |
| xc_parse_push(XC_INST_STR); |
| xc_parse_pushIndex(p->func->strs.len); |
| bc_vec_push(&p->func->strs, &str); |
| |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| #define zbc_parse_pushSTR(...) (zbc_parse_pushSTR(__VA_ARGS__) COMMA_SUCCESS) |
| #endif |
| |
| static void xc_parse_pushNUM(void) |
| { |
| BcParse *p = &G.prs; |
| char *num = xstrdup(p->lex_strnumbuf.v); |
| #if ENABLE_BC && ENABLE_DC |
| size_t idx = bc_vec_push(IS_BC ? &p->func->consts : &G.prog.consts, &num); |
| #elif ENABLE_BC |
| size_t idx = bc_vec_push(&p->func->consts, &num); |
| #else // DC |
| size_t idx = bc_vec_push(&G.prog.consts, &num); |
| #endif |
| xc_parse_push(XC_INST_NUM); |
| xc_parse_pushIndex(idx); |
| } |
| |
| static BC_STATUS zxc_parse_text_init(const char *text) |
| { |
| G.prs.func = xc_program_func(G.prs.fidx); |
| G.prs.lex_inbuf = text; |
| G.prs.lex = G.prs.lex_last = XC_LEX_INVALID; |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| #define zxc_parse_text_init(...) (zxc_parse_text_init(__VA_ARGS__) COMMA_SUCCESS) |
| |
| // Called when parsing or execution detects a failure, |
| // resets execution structures. |
| static void xc_program_reset(void) |
| { |
| BcFunc *f; |
| BcInstPtr *ip; |
| |
| bc_vec_npop(&G.prog.exestack, G.prog.exestack.len - 1); |
| bc_vec_pop_all(&G.prog.results); |
| |
| f = xc_program_func_BC_PROG_MAIN(); |
| ip = bc_vec_top(&G.prog.exestack); |
| ip->inst_idx = f->code.len; |
| } |
| |
| // Called when parsing code detects a failure, |
| // resets parsing structures. |
| static void xc_parse_reset(void) |
| { |
| BcParse *p = &G.prs; |
| if (p->fidx != BC_PROG_MAIN) { |
| bc_func_free(p->func); |
| bc_func_init(p->func); |
| |
| p->fidx = BC_PROG_MAIN; |
| p->func = xc_program_func_BC_PROG_MAIN(); |
| } |
| |
| p->lex_inbuf += strlen(p->lex_inbuf); |
| p->lex = XC_LEX_EOF; |
| |
| IF_BC(bc_vec_pop_all(&p->exits);) |
| IF_BC(bc_vec_pop_all(&p->conds);) |
| IF_BC(bc_vec_pop_all(&p->ops);) |
| |
| xc_program_reset(); |
| } |
| |
| static void xc_parse_free(void) |
| { |
| IF_BC(bc_vec_free(&G.prs.exits);) |
| IF_BC(bc_vec_free(&G.prs.conds);) |
| IF_BC(bc_vec_free(&G.prs.ops);) |
| bc_vec_free(&G.prs.lex_strnumbuf); |
| } |
| |
| static void xc_parse_create(size_t fidx) |
| { |
| BcParse *p = &G.prs; |
| memset(p, 0, sizeof(BcParse)); |
| |
| bc_char_vec_init(&p->lex_strnumbuf); |
| IF_BC(bc_vec_init(&p->exits, sizeof(size_t), NULL);) |
| IF_BC(bc_vec_init(&p->conds, sizeof(size_t), NULL);) |
| IF_BC(bc_vec_init(&p->ops, sizeof(BcLexType), NULL);) |
| |
| p->fidx = fidx; |
| p->func = xc_program_func(fidx); |
| } |
| |
| static void xc_program_add_fn(void) |
| { |
| //size_t idx; |
| BcFunc f; |
| bc_func_init(&f); |
| //idx = |
| bc_vec_push(&G.prog.fns, &f); |
| //return idx; |
| } |
| |
| #if ENABLE_BC |
| |
| // Note: takes ownership of 'name' (must be malloced) |
| static size_t bc_program_addFunc(char *name) |
| { |
| size_t idx; |
| BcId entry, *entry_ptr; |
| int inserted; |
| |
| entry.name = name; |
| entry.idx = G.prog.fns.len; |
| |
| inserted = bc_map_insert(&G.prog.fn_map, &entry, &idx); |
| if (!inserted) free(name); |
| |
| entry_ptr = bc_vec_item(&G.prog.fn_map, idx); |
| idx = entry_ptr->idx; |
| |
| if (!inserted) { |
| // There is already a function with this name. |
| // It'll be redefined now, clear old definition. |
| BcFunc *func = xc_program_func(entry_ptr->idx); |
| bc_func_free(func); |
| bc_func_init(func); |
| } else { |
| xc_program_add_fn(); |
| } |
| |
| return idx; |
| } |
| |
| #define BC_PARSE_TOP_OP(p) (*(BcLexType*)bc_vec_top(&(p)->ops)) |
| // 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_TOKEN_2_INST(t) ((char) ((t) - XC_LEX_OP_POWER + XC_INST_POWER)) |
| |
| static BcStatus bc_parse_expr_empty_ok(uint8_t flags); |
| |
| static BC_STATUS zbc_parse_expr(uint8_t flags) |
| { |
| BcStatus s; |
| |
| s = bc_parse_expr_empty_ok(flags); |
| if (s == BC_STATUS_PARSE_EMPTY_EXP) |
| RETURN_STATUS(bc_error("empty expression")); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_expr(...) (zbc_parse_expr(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_stmt_possibly_auto(bool auto_allowed); |
| #define zbc_parse_stmt_possibly_auto(...) (zbc_parse_stmt_possibly_auto(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_stmt(void) |
| { |
| RETURN_STATUS(zbc_parse_stmt_possibly_auto(false)); |
| } |
| #define zbc_parse_stmt(...) (zbc_parse_stmt(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_stmt_allow_NLINE_before(const char *after_X) |
| { |
| BcParse *p = &G.prs; |
| // "if(cond)<newline>stmt" is accepted too, but not 2+ newlines. |
| // Same for "else", "while()", "for()". |
| BcStatus s = zbc_lex_next_and_skip_NLINE(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex == XC_LEX_NLINE) |
| RETURN_STATUS(bc_error_fmt("no statement after '%s'", after_X)); |
| |
| RETURN_STATUS(zbc_parse_stmt()); |
| } |
| #define zbc_parse_stmt_allow_NLINE_before(...) (zbc_parse_stmt_allow_NLINE_before(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void bc_parse_operator(BcLexType type, size_t start, size_t *nexprs) |
| { |
| BcParse *p = &G.prs; |
| char l, r = bc_parse_op_PREC(type - XC_LEX_1st_op); |
| bool left = bc_parse_op_LEFT(type - XC_LEX_1st_op); |
| |
| while (p->ops.len > start) { |
| BcLexType t = BC_PARSE_TOP_OP(p); |
| if (t == BC_LEX_LPAREN) break; |
| |
| l = bc_parse_op_PREC(t - XC_LEX_1st_op); |
| if (l >= r && (l != r || !left)) break; |
| |
| xc_parse_push(BC_TOKEN_2_INST(t)); |
| bc_vec_pop(&p->ops); |
| *nexprs -= (t != BC_LEX_OP_BOOL_NOT && t != XC_LEX_NEG); |
| } |
| |
| bc_vec_push(&p->ops, &type); |
| } |
| |
| static BC_STATUS zbc_parse_rightParen(size_t ops_bgn, size_t *nexs) |
| { |
| BcParse *p = &G.prs; |
| BcLexType top; |
| |
| if (p->ops.len <= ops_bgn) |
| RETURN_STATUS(bc_error_bad_expression()); |
| top = BC_PARSE_TOP_OP(p); |
| |
| while (top != BC_LEX_LPAREN) { |
| xc_parse_push(BC_TOKEN_2_INST(top)); |
| |
| bc_vec_pop(&p->ops); |
| *nexs -= (top != BC_LEX_OP_BOOL_NOT && top != XC_LEX_NEG); |
| |
| if (p->ops.len <= ops_bgn) |
| RETURN_STATUS(bc_error_bad_expression()); |
| top = BC_PARSE_TOP_OP(p); |
| } |
| |
| bc_vec_pop(&p->ops); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_parse_rightParen(...) (zbc_parse_rightParen(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_params(uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| size_t nparams; |
| |
| dbg_lex("%s:%d p->lex:%d", __func__, __LINE__, p->lex); |
| flags = (flags & ~(BC_PARSE_PRINT | BC_PARSE_REL)) | BC_PARSE_ARRAY; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| nparams = 0; |
| if (p->lex != BC_LEX_RPAREN) { |
| for (;;) { |
| s = zbc_parse_expr(flags); |
| if (s) RETURN_STATUS(s); |
| nparams++; |
| if (p->lex != BC_LEX_COMMA) { |
| if (p->lex == BC_LEX_RPAREN) |
| break; |
| RETURN_STATUS(bc_error_bad_token()); |
| } |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| } |
| } |
| |
| xc_parse_push(BC_INST_CALL); |
| xc_parse_pushIndex(nparams); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_parse_params(...) (zbc_parse_params(__VA_ARGS__) COMMA_SUCCESS) |
| |
| // Note: takes ownership of 'name' (must be malloced) |
| static BC_STATUS zbc_parse_call(char *name, uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| BcId entry, *entry_ptr; |
| size_t idx; |
| |
| entry.name = name; |
| |
| s = zbc_parse_params(flags); |
| if (s) goto err; |
| |
| if (p->lex != BC_LEX_RPAREN) { |
| s = bc_error_bad_token(); |
| goto err; |
| } |
| |
| idx = bc_map_find_exact(&G.prog.fn_map, &entry); |
| |
| if (idx == BC_VEC_INVALID_IDX) { |
| // No such function exists, create an empty one |
| bc_program_addFunc(name); |
| idx = bc_map_find_exact(&G.prog.fn_map, &entry); |
| } else |
| free(name); |
| |
| entry_ptr = bc_vec_item(&G.prog.fn_map, idx); |
| xc_parse_pushIndex(entry_ptr->idx); |
| |
| RETURN_STATUS(zxc_lex_next()); |
| err: |
| free(name); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_call(...) (zbc_parse_call(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_name(BcInst *type, uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| char *name; |
| |
| name = xstrdup(p->lex_strnumbuf.v); |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| if (p->lex == BC_LEX_LBRACKET) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| if (p->lex == BC_LEX_RBRACKET) { |
| if (!(flags & BC_PARSE_ARRAY)) { |
| s = bc_error_bad_expression(); |
| goto err; |
| } |
| *type = XC_INST_ARRAY; |
| } else { |
| *type = XC_INST_ARRAY_ELEM; |
| flags &= ~(BC_PARSE_PRINT | BC_PARSE_REL); |
| s = zbc_parse_expr(flags); |
| if (s) goto err; |
| } |
| s = zxc_lex_next(); |
| if (s) goto err; |
| xc_parse_push(*type); |
| xc_parse_pushName(name); |
| free(name); |
| } else if (p->lex == BC_LEX_LPAREN) { |
| if (flags & BC_PARSE_NOCALL) { |
| s = bc_error_bad_token(); |
| goto err; |
| } |
| *type = BC_INST_CALL; |
| s = zbc_parse_call(name, flags); |
| } else { |
| *type = XC_INST_VAR; |
| xc_parse_push(XC_INST_VAR); |
| xc_parse_pushName(name); |
| free(name); |
| } |
| |
| RETURN_STATUS(s); |
| err: |
| free(name); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_name(...) (zbc_parse_name(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_read(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_RPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| xc_parse_push(XC_INST_READ); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_read(...) (zbc_parse_read(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_builtin(BcLexType type, uint8_t flags, BcInst *prev) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| flags = (flags & ~(BC_PARSE_PRINT | BC_PARSE_REL)) | BC_PARSE_ARRAY; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| s = zbc_parse_expr(flags); |
| if (s) RETURN_STATUS(s); |
| |
| if (p->lex != BC_LEX_RPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| *prev = (type == BC_LEX_KEY_LENGTH) ? XC_INST_LENGTH : XC_INST_SQRT; |
| xc_parse_push(*prev); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_builtin(...) (zbc_parse_builtin(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_scale(BcInst *type, uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| if (p->lex != BC_LEX_LPAREN) { |
| *type = XC_INST_SCALE; |
| xc_parse_push(XC_INST_SCALE); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| *type = XC_INST_SCALE_FUNC; |
| flags &= ~(BC_PARSE_PRINT | BC_PARSE_REL); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| s = zbc_parse_expr(flags); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_RPAREN) |
| RETURN_STATUS(bc_error_bad_token()); |
| xc_parse_push(XC_INST_SCALE_FUNC); |
| |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| #define zbc_parse_scale(...) (zbc_parse_scale(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_incdec(BcInst *prev, bool *paren_expr, |
| size_t *nexprs, uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| BcLexType type; |
| char inst; |
| BcInst etype = *prev; |
| |
| if (etype == XC_INST_VAR || etype == XC_INST_ARRAY_ELEM |
| || etype == XC_INST_SCALE || etype == BC_INST_LAST |
| || etype == XC_INST_IBASE || etype == XC_INST_OBASE |
| ) { |
| *prev = inst = BC_INST_INC_POST + (p->lex != BC_LEX_OP_INC); |
| xc_parse_push(inst); |
| s = zxc_lex_next(); |
| } else { |
| *prev = inst = BC_INST_INC_PRE + (p->lex != BC_LEX_OP_INC); |
| *paren_expr = true; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| type = p->lex; |
| |
| // Because we parse the next part of the expression |
| // right here, we need to increment this. |
| *nexprs = *nexprs + 1; |
| |
| switch (type) { |
| case XC_LEX_NAME: |
| s = zbc_parse_name(prev, flags | BC_PARSE_NOCALL); |
| break; |
| case BC_LEX_KEY_IBASE: |
| case BC_LEX_KEY_LAST: |
| case BC_LEX_KEY_OBASE: |
| xc_parse_push(type - BC_LEX_KEY_IBASE + XC_INST_IBASE); |
| s = zxc_lex_next(); |
| break; |
| case BC_LEX_KEY_SCALE: |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex == BC_LEX_LPAREN) |
| s = bc_error_bad_token(); |
| else |
| xc_parse_push(XC_INST_SCALE); |
| break; |
| default: |
| s = bc_error_bad_token(); |
| break; |
| } |
| |
| if (!s) xc_parse_push(inst); |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_incdec(...) (zbc_parse_incdec(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if 0 |
| #define BC_PARSE_LEAF(p, rparen) \ |
| ((rparen) \ |
| || ((p) >= XC_INST_NUM && (p) <= XC_INST_SQRT) \ |
| || (p) == BC_INST_INC_POST \ |
| || (p) == BC_INST_DEC_POST \ |
| ) |
| #else |
| static int ok_in_expr(BcInst p) |
| { |
| return (p >= XC_INST_NUM && p <= XC_INST_SQRT) |
| || p == BC_INST_INC_POST |
| || p == BC_INST_DEC_POST |
| ; |
| } |
| #define BC_PARSE_LEAF(p, rparen) ((rparen) || ok_in_expr(p)) |
| #endif |
| |
| static BC_STATUS zbc_parse_minus(BcInst *prev, size_t ops_bgn, |
| bool rparen, size_t *nexprs) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| BcLexType type; |
| BcInst etype = *prev; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| type = BC_PARSE_LEAF(etype, rparen) ? XC_LEX_OP_MINUS : XC_LEX_NEG; |
| *prev = BC_TOKEN_2_INST(type); |
| |
| // We can just push onto the op stack because this is the largest |
| // precedence operator that gets pushed. Inc/dec does not. |
| if (type != XC_LEX_OP_MINUS) |
| bc_vec_push(&p->ops, &type); |
| else |
| bc_parse_operator(type, ops_bgn, nexprs); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_minus(...) (zbc_parse_minus(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_print(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| BcLexType type; |
| |
| for (;;) { |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| type = p->lex; |
| if (type == XC_LEX_STR) { |
| s = zbc_parse_pushSTR(); |
| } else { |
| s = zbc_parse_expr(0); |
| } |
| if (s) RETURN_STATUS(s); |
| xc_parse_push(XC_INST_PRINT_POP); |
| if (p->lex != BC_LEX_COMMA) |
| break; |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_print(...) (zbc_parse_print(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_return(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| BcLexType t; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| t = p->lex; |
| if (t == XC_LEX_NLINE || t == BC_LEX_SCOLON) |
| xc_parse_push(BC_INST_RET0); |
| else { |
| bool paren = (t == BC_LEX_LPAREN); |
| s = bc_parse_expr_empty_ok(0); |
| if (s == BC_STATUS_PARSE_EMPTY_EXP) { |
| xc_parse_push(BC_INST_RET0); |
| s = zxc_lex_next(); |
| } |
| if (s) RETURN_STATUS(s); |
| |
| if (!paren || p->lex_last != BC_LEX_RPAREN) { |
| s = zbc_POSIX_requires("parentheses around return expressions"); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| xc_parse_push(XC_INST_RET); |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_return(...) (zbc_parse_return(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void rewrite_label_to_current(size_t idx) |
| { |
| BcParse *p = &G.prs; |
| size_t *label = bc_vec_item(&p->func->labels, idx); |
| *label = p->func->code.len; |
| } |
| |
| static BC_STATUS zbc_parse_if(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| size_t ip_idx; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| s = zbc_parse_expr(BC_PARSE_REL); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_RPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| // Encode "if zero, jump to ..." |
| // Pushed value (destination of the jump) is uninitialized, |
| // will be rewritten to be address of "end of if()" or of "else". |
| ip_idx = bc_vec_push(&p->func->labels, &ip_idx); |
| bc_parse_pushJUMP_ZERO(ip_idx); |
| |
| s = zbc_parse_stmt_allow_NLINE_before(STRING_if); |
| if (s) RETURN_STATUS(s); |
| |
| dbg_lex("%s:%d in if after stmt: p->lex:%d", __func__, __LINE__, p->lex); |
| if (p->lex == BC_LEX_KEY_ELSE) { |
| size_t ip2_idx; |
| |
| // Encode "after then_stmt, jump to end of if()" |
| ip2_idx = bc_vec_push(&p->func->labels, &ip2_idx); |
| dbg_lex("%s:%d after if() then_stmt: BC_INST_JUMP to %zd", __func__, __LINE__, ip2_idx); |
| bc_parse_pushJUMP(ip2_idx); |
| |
| dbg_lex("%s:%d rewriting 'if_zero' label to jump to 'else'-> %zd", __func__, __LINE__, p->func->code.len); |
| rewrite_label_to_current(ip_idx); |
| |
| ip_idx = ip2_idx; |
| |
| s = zbc_parse_stmt_allow_NLINE_before(STRING_else); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| dbg_lex("%s:%d rewriting label to jump after 'if' body-> %zd", __func__, __LINE__, p->func->code.len); |
| rewrite_label_to_current(ip_idx); |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_if(...) (zbc_parse_if(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_while(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| size_t cond_idx; |
| size_t ip_idx; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) RETURN_STATUS(bc_error_bad_token()); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| cond_idx = bc_vec_push(&p->func->labels, &p->func->code.len); |
| ip_idx = cond_idx + 1; |
| bc_vec_push(&p->conds, &cond_idx); |
| |
| bc_vec_push(&p->exits, &ip_idx); |
| bc_vec_push(&p->func->labels, &ip_idx); |
| |
| s = zbc_parse_expr(BC_PARSE_REL); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_RPAREN) RETURN_STATUS(bc_error_bad_token()); |
| |
| bc_parse_pushJUMP_ZERO(ip_idx); |
| |
| s = zbc_parse_stmt_allow_NLINE_before(STRING_while); |
| if (s) RETURN_STATUS(s); |
| |
| dbg_lex("%s:%d BC_INST_JUMP to %zd", __func__, __LINE__, cond_idx); |
| bc_parse_pushJUMP(cond_idx); |
| |
| dbg_lex("%s:%d rewriting label-> %zd", __func__, __LINE__, p->func->code.len); |
| rewrite_label_to_current(ip_idx); |
| |
| bc_vec_pop(&p->exits); |
| bc_vec_pop(&p->conds); |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_while(...) (zbc_parse_while(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_for(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| size_t cond_idx, exit_idx, body_idx, update_idx; |
| |
| dbg_lex("%s:%d p->lex:%d", __func__, __LINE__, p->lex); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) RETURN_STATUS(bc_error_bad_token()); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| if (p->lex != BC_LEX_SCOLON) { |
| s = zbc_parse_expr(0); |
| xc_parse_push(XC_INST_POP); |
| if (s) RETURN_STATUS(s); |
| } else { |
| s = zbc_POSIX_does_not_allow_empty_X_expression_in_for("init"); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| if (p->lex != BC_LEX_SCOLON) RETURN_STATUS(bc_error_bad_token()); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| cond_idx = bc_vec_push(&p->func->labels, &p->func->code.len); |
| update_idx = cond_idx + 1; |
| body_idx = update_idx + 1; |
| exit_idx = body_idx + 1; |
| |
| if (p->lex != BC_LEX_SCOLON) |
| s = zbc_parse_expr(BC_PARSE_REL); |
| else { |
| // Set this for the next call to xc_parse_pushNUM(). |
| // This is safe to set because the current token is a semicolon, |
| // which has no string requirement. |
| bc_vec_string(&p->lex_strnumbuf, 1, "1"); |
| xc_parse_pushNUM(); |
| s = zbc_POSIX_does_not_allow_empty_X_expression_in_for("condition"); |
| } |
| if (s) RETURN_STATUS(s); |
| |
| if (p->lex != BC_LEX_SCOLON) RETURN_STATUS(bc_error_bad_token()); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| bc_parse_pushJUMP_ZERO(exit_idx); |
| bc_parse_pushJUMP(body_idx); |
| |
| bc_vec_push(&p->conds, &update_idx); |
| bc_vec_push(&p->func->labels, &p->func->code.len); |
| |
| if (p->lex != BC_LEX_RPAREN) { |
| s = zbc_parse_expr(0); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_RPAREN) RETURN_STATUS(bc_error_bad_token()); |
| xc_parse_push(XC_INST_POP); |
| } else { |
| s = zbc_POSIX_does_not_allow_empty_X_expression_in_for("update"); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| bc_parse_pushJUMP(cond_idx); |
| bc_vec_push(&p->func->labels, &p->func->code.len); |
| |
| bc_vec_push(&p->exits, &exit_idx); |
| bc_vec_push(&p->func->labels, &exit_idx); |
| |
| s = zbc_parse_stmt_allow_NLINE_before(STRING_for); |
| if (s) RETURN_STATUS(s); |
| |
| dbg_lex("%s:%d BC_INST_JUMP to %zd", __func__, __LINE__, update_idx); |
| bc_parse_pushJUMP(update_idx); |
| |
| dbg_lex("%s:%d rewriting label-> %zd", __func__, __LINE__, p->func->code.len); |
| rewrite_label_to_current(exit_idx); |
| |
| bc_vec_pop(&p->exits); |
| bc_vec_pop(&p->conds); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_parse_for(...) (zbc_parse_for(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_break_or_continue(BcLexType type) |
| { |
| BcParse *p = &G.prs; |
| size_t i; |
| |
| if (type == BC_LEX_KEY_BREAK) { |
| if (p->exits.len == 0) // none of the enclosing blocks is a loop |
| RETURN_STATUS(bc_error_bad_token()); |
| i = *(size_t*)bc_vec_top(&p->exits); |
| } else { |
| i = *(size_t*)bc_vec_top(&p->conds); |
| } |
| bc_parse_pushJUMP(i); |
| |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| #define zbc_parse_break_or_continue(...) (zbc_parse_break_or_continue(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_func_insert(BcFunc *f, char *name, bool var) |
| { |
| BcId *autoid; |
| BcId a; |
| size_t i; |
| |
| autoid = (void*)f->autos.v; |
| for (i = 0; i < f->autos.len; i++, autoid++) { |
| if (strcmp(name, autoid->name) == 0) |
| RETURN_STATUS(bc_error("duplicate function parameter or auto name")); |
| } |
| |
| a.idx = var; |
| a.name = name; |
| |
| bc_vec_push(&f->autos, &a); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_func_insert(...) (zbc_func_insert(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_funcdef(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| bool var, comma = false; |
| char *name; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != XC_LEX_NAME) |
| RETURN_STATUS(bc_error("bad function definition")); |
| |
| name = xstrdup(p->lex_strnumbuf.v); |
| p->fidx = bc_program_addFunc(name); |
| p->func = xc_program_func(p->fidx); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != BC_LEX_LPAREN) |
| RETURN_STATUS(bc_error("bad function definition")); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| while (p->lex != BC_LEX_RPAREN) { |
| if (p->lex != XC_LEX_NAME) |
| RETURN_STATUS(bc_error("bad function definition")); |
| |
| ++p->func->nparams; |
| |
| name = xstrdup(p->lex_strnumbuf.v); |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| var = p->lex != BC_LEX_LBRACKET; |
| |
| if (!var) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| if (p->lex != BC_LEX_RBRACKET) { |
| s = bc_error("bad function definition"); |
| goto err; |
| } |
| |
| s = zxc_lex_next(); |
| if (s) goto err; |
| } |
| |
| comma = p->lex == BC_LEX_COMMA; |
| if (comma) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| } |
| |
| s = zbc_func_insert(p->func, name, var); |
| if (s) goto err; |
| } |
| |
| if (comma) RETURN_STATUS(bc_error("bad function definition")); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| if (p->lex != BC_LEX_LBRACE) { |
| s = zbc_POSIX_requires("the left brace be on the same line as the function header"); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| // Prevent "define z()<newline>" from being interpreted as function with empty stmt as body |
| s = zbc_lex_skip_if_at_NLINE(); |
| if (s) RETURN_STATUS(s); |
| //GNU bc requires a {} block even if function body has single stmt, enforce this? |
| if (p->lex != BC_LEX_LBRACE) |
| RETURN_STATUS(bc_error("function { body } expected")); |
| |
| p->in_funcdef++; // to determine whether "return" stmt is allowed, and such |
| s = zbc_parse_stmt_possibly_auto(true); |
| p->in_funcdef--; |
| if (s) RETURN_STATUS(s); |
| |
| xc_parse_push(BC_INST_RET0); |
| |
| // Subsequent code generation is into main program |
| p->fidx = BC_PROG_MAIN; |
| p->func = xc_program_func_BC_PROG_MAIN(); |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| err: |
| dbg_lex_done("%s:%d done (error)", __func__, __LINE__); |
| free(name); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_funcdef(...) (zbc_parse_funcdef(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_auto(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| char *name; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| for (;;) { |
| bool var; |
| |
| if (p->lex != XC_LEX_NAME) |
| RETURN_STATUS(bc_error("bad 'auto' syntax")); |
| |
| name = xstrdup(p->lex_strnumbuf.v); |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| var = (p->lex != BC_LEX_LBRACKET); |
| if (!var) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| |
| if (p->lex != BC_LEX_RBRACKET) { |
| s = bc_error("bad 'auto' syntax"); |
| goto err; |
| } |
| s = zxc_lex_next(); |
| if (s) goto err; |
| } |
| |
| s = zbc_func_insert(p->func, name, var); |
| if (s) goto err; |
| |
| if (p->lex == XC_LEX_NLINE |
| || p->lex == BC_LEX_SCOLON |
| //|| p->lex == BC_LEX_RBRACE // allow "define f() {auto a}" |
| ) { |
| break; |
| } |
| if (p->lex != BC_LEX_COMMA) |
| RETURN_STATUS(bc_error("bad 'auto' syntax")); |
| s = zxc_lex_next(); // skip comma |
| if (s) RETURN_STATUS(s); |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| err: |
| free(name); |
| dbg_lex_done("%s:%d done (ERROR)", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_auto(...) (zbc_parse_auto(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #undef zbc_parse_stmt_possibly_auto |
| static BC_STATUS zbc_parse_stmt_possibly_auto(bool auto_allowed) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s = BC_STATUS_SUCCESS; |
| |
| dbg_lex_enter("%s:%d entered, p->lex:%d", __func__, __LINE__, p->lex); |
| |
| if (p->lex == XC_LEX_NLINE) { |
| dbg_lex_done("%s:%d done (seen XC_LEX_NLINE)", __func__, __LINE__); |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| if (p->lex == BC_LEX_SCOLON) { |
| dbg_lex_done("%s:%d done (seen BC_LEX_SCOLON)", __func__, __LINE__); |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| |
| if (p->lex == BC_LEX_LBRACE) { |
| dbg_lex("%s:%d BC_LEX_LBRACE: (auto_allowed:%d)", __func__, __LINE__, auto_allowed); |
| do { |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| } while (p->lex == XC_LEX_NLINE); |
| if (auto_allowed && p->lex == BC_LEX_KEY_AUTO) { |
| dbg_lex("%s:%d calling zbc_parse_auto()", __func__, __LINE__); |
| s = zbc_parse_auto(); |
| if (s) RETURN_STATUS(s); |
| } |
| while (p->lex != BC_LEX_RBRACE) { |
| dbg_lex("%s:%d block parsing loop", __func__, __LINE__); |
| s = zbc_parse_stmt(); |
| if (s) RETURN_STATUS(s); |
| } |
| s = zxc_lex_next(); |
| dbg_lex_done("%s:%d done (seen BC_LEX_RBRACE)", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| |
| dbg_lex("%s:%d p->lex:%d", __func__, __LINE__, p->lex); |
| switch (p->lex) { |
| case XC_LEX_OP_MINUS: |
| case BC_LEX_OP_INC: |
| case BC_LEX_OP_DEC: |
| case BC_LEX_OP_BOOL_NOT: |
| case BC_LEX_LPAREN: |
| case XC_LEX_NAME: |
| case XC_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: |
| s = zbc_parse_expr(BC_PARSE_PRINT); |
| break; |
| case XC_LEX_STR: |
| s = zbc_parse_pushSTR(); |
| xc_parse_push(XC_INST_PRINT_STR); |
| break; |
| case BC_LEX_KEY_BREAK: |
| case BC_LEX_KEY_CONTINUE: |
| s = zbc_parse_break_or_continue(p->lex); |
| break; |
| case BC_LEX_KEY_FOR: |
| s = zbc_parse_for(); |
| break; |
| case BC_LEX_KEY_HALT: |
| xc_parse_push(BC_INST_HALT); |
| s = zxc_lex_next(); |
| break; |
| case BC_LEX_KEY_IF: |
| s = zbc_parse_if(); |
| break; |
| case BC_LEX_KEY_LIMITS: |
| // "limits" is a compile-time command, |
| // the output is produced at _parse time_. |
| printf( |
| "BC_BASE_MAX = "BC_MAX_OBASE_STR "\n" |
| "BC_DIM_MAX = "BC_MAX_DIM_STR "\n" |
| "BC_SCALE_MAX = "BC_MAX_SCALE_STR "\n" |
| "BC_STRING_MAX = "BC_MAX_STRING_STR"\n" |
| "BC_NAME_MAX = "BC_MAX_NAME_STR "\n" |
| "BC_NUM_MAX = "BC_MAX_NUM_STR "\n" |
| "MAX Exponent = "BC_MAX_EXP_STR "\n" |
| "Number of vars = "BC_MAX_VARS_STR "\n" |
| ); |
| s = zxc_lex_next(); |
| break; |
| case BC_LEX_KEY_PRINT: |
| s = zbc_parse_print(); |
| break; |
| case BC_LEX_KEY_QUIT: |
| // "quit" is a compile-time command. For example, |
| // "if (0 == 1) quit" terminates when parsing the statement, |
| // not when it is executed |
| QUIT_OR_RETURN_TO_MAIN; |
| case BC_LEX_KEY_RETURN: |
| if (!p->in_funcdef) |
| RETURN_STATUS(bc_error("'return' not in a function")); |
| s = zbc_parse_return(); |
| break; |
| case BC_LEX_KEY_WHILE: |
| s = zbc_parse_while(); |
| break; |
| default: |
| s = bc_error_bad_token(); |
| break; |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_stmt_possibly_auto(...) (zbc_parse_stmt_possibly_auto(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_parse_stmt_or_funcdef(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| if (p->lex == XC_LEX_EOF) |
| s = bc_error("end of file"); |
| else if (p->lex == BC_LEX_KEY_DEFINE) { |
| dbg_lex("%s:%d p->lex:BC_LEX_KEY_DEFINE", __func__, __LINE__); |
| s = zbc_parse_funcdef(); |
| } else { |
| dbg_lex("%s:%d p->lex:%d (not BC_LEX_KEY_DEFINE)", __func__, __LINE__, p->lex); |
| s = zbc_parse_stmt(); |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zbc_parse_stmt_or_funcdef(...) (zbc_parse_stmt_or_funcdef(__VA_ARGS__) COMMA_SUCCESS) |
| |
| // This is not a "z" function: can also return BC_STATUS_PARSE_EMPTY_EXP |
| static BcStatus bc_parse_expr_empty_ok(uint8_t flags) |
| { |
| BcParse *p = &G.prs; |
| BcInst prev = XC_INST_PRINT; |
| size_t nexprs = 0, ops_bgn = p->ops.len; |
| unsigned nparens, nrelops; |
| bool paren_first, paren_expr, rprn, assign, bin_last; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| paren_first = (p->lex == BC_LEX_LPAREN); |
| nparens = nrelops = 0; |
| paren_expr = rprn = assign = false; |
| bin_last = true; |
| |
| for (;;) { |
| bool get_token; |
| BcStatus s; |
| BcLexType t = p->lex; |
| |
| if (!lex_allowed_in_bc_expr(t)) |
| break; |
| |
| dbg_lex("%s:%d t:%d", __func__, __LINE__, t); |
| get_token = false; |
| s = BC_STATUS_SUCCESS; |
| switch (t) { |
| case BC_LEX_OP_INC: |
| case BC_LEX_OP_DEC: |
| dbg_lex("%s:%d LEX_OP_INC/DEC", __func__, __LINE__); |
| s = zbc_parse_incdec(&prev, &paren_expr, &nexprs, flags); |
| rprn = bin_last = false; |
| //get_token = false; - already is |
| break; |
| case XC_LEX_OP_MINUS: |
| dbg_lex("%s:%d LEX_OP_MINUS", __func__, __LINE__); |
| s = zbc_parse_minus(&prev, ops_bgn, rprn, &nexprs); |
| rprn = false; |
| //get_token = false; - already is |
| bin_last = (prev == XC_INST_MINUS); |
| 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: |
| dbg_lex("%s:%d LEX_ASSIGNxyz", __func__, __LINE__); |
| if (prev != XC_INST_VAR && prev != XC_INST_ARRAY_ELEM |
| && prev != XC_INST_SCALE && prev != XC_INST_IBASE |
| && prev != XC_INST_OBASE && prev != BC_INST_LAST |
| ) { |
| return bc_error("bad assignment:" |
| " left side must be variable" |
| " or array element" |
| ); // note: shared string |
| } |
| // Fallthrough. |
| case XC_LEX_OP_POWER: |
| case XC_LEX_OP_MULTIPLY: |
| case XC_LEX_OP_DIVIDE: |
| case XC_LEX_OP_MODULUS: |
| case XC_LEX_OP_PLUS: |
| case XC_LEX_OP_REL_EQ: |
| case XC_LEX_OP_REL_LE: |
| case XC_LEX_OP_REL_GE: |
| case XC_LEX_OP_REL_NE: |
| case XC_LEX_OP_REL_LT: |
| case XC_LEX_OP_REL_GT: |
| case BC_LEX_OP_BOOL_NOT: |
| case BC_LEX_OP_BOOL_OR: |
| case BC_LEX_OP_BOOL_AND: |
| dbg_lex("%s:%d LEX_OP_xyz", __func__, __LINE__); |
| if (((t == BC_LEX_OP_BOOL_NOT) != bin_last) |
| || (t != BC_LEX_OP_BOOL_NOT && prev == XC_INST_BOOL_NOT) |
| ) { |
| return bc_error_bad_expression(); |
| } |
| nrelops += (t >= XC_LEX_OP_REL_EQ && t <= XC_LEX_OP_REL_GT); |
| prev = BC_TOKEN_2_INST(t); |
| bc_parse_operator(t, ops_bgn, &nexprs); |
| s = zxc_lex_next(); |
| rprn = false; |
| //get_token = false; - already is |
| bin_last = (t != BC_LEX_OP_BOOL_NOT); |
| break; |
| case BC_LEX_LPAREN: |
| dbg_lex("%s:%d LEX_LPAREN", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| bc_vec_push(&p->ops, &t); |
| nparens++; |
| get_token = true; |
| paren_expr = false; |
| rprn = bin_last = false; |
| break; |
| case BC_LEX_RPAREN: |
| dbg_lex("%s:%d LEX_RPAREN", __func__, __LINE__); |
| if (bin_last || prev == XC_INST_BOOL_NOT) |
| return bc_error_bad_expression(); |
| if (nparens == 0) { |
| goto exit_loop; |
| } |
| if (!paren_expr) { |
| dbg_lex_done("%s:%d done (returning EMPTY_EXP)", __func__, __LINE__); |
| return BC_STATUS_PARSE_EMPTY_EXP; |
| } |
| s = zbc_parse_rightParen(ops_bgn, &nexprs); |
| nparens--; |
| get_token = true; |
| paren_expr = rprn = true; |
| bin_last = false; |
| break; |
| case XC_LEX_NAME: |
| dbg_lex("%s:%d LEX_NAME", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| s = zbc_parse_name(&prev, flags & ~BC_PARSE_NOCALL); |
| paren_expr = true; |
| rprn = bin_last = false; |
| //get_token = false; - already is |
| nexprs++; |
| break; |
| case XC_LEX_NUMBER: |
| dbg_lex("%s:%d LEX_NUMBER", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| xc_parse_pushNUM(); |
| prev = XC_INST_NUM; |
| get_token = true; |
| paren_expr = true; |
| rprn = bin_last = false; |
| nexprs++; |
| break; |
| case BC_LEX_KEY_IBASE: |
| case BC_LEX_KEY_LAST: |
| case BC_LEX_KEY_OBASE: |
| dbg_lex("%s:%d LEX_IBASE/LAST/OBASE", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| prev = (char) (t - BC_LEX_KEY_IBASE + XC_INST_IBASE); |
| xc_parse_push((char) prev); |
| get_token = true; |
| paren_expr = true; |
| rprn = bin_last = false; |
| nexprs++; |
| break; |
| case BC_LEX_KEY_LENGTH: |
| case BC_LEX_KEY_SQRT: |
| dbg_lex("%s:%d LEX_LEN/SQRT", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| s = zbc_parse_builtin(t, flags, &prev); |
| get_token = true; |
| paren_expr = true; |
| rprn = bin_last = false; |
| nexprs++; |
| break; |
| case BC_LEX_KEY_READ: |
| dbg_lex("%s:%d LEX_READ", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| s = zbc_parse_read(); |
| prev = XC_INST_READ; |
| get_token = true; |
| paren_expr = true; |
| rprn = bin_last = false; |
| nexprs++; |
| break; |
| case BC_LEX_KEY_SCALE: |
| dbg_lex("%s:%d LEX_SCALE", __func__, __LINE__); |
| if (BC_PARSE_LEAF(prev, rprn)) |
| return bc_error_bad_expression(); |
| s = zbc_parse_scale(&prev, flags); |
| prev = XC_INST_SCALE; |
| //get_token = false; - already is |
| paren_expr = true; |
| rprn = bin_last = false; |
| nexprs++; |
| break; |
| default: |
| return bc_error_bad_token(); |
| } |
| |
| if (s || G_interrupt) // error, or ^C: stop parsing |
| return BC_STATUS_FAILURE; |
| if (get_token) { |
| s = zxc_lex_next(); |
| if (s) return s; |
| } |
| } |
| exit_loop: |
| |
| while (p->ops.len > ops_bgn) { |
| BcLexType top = BC_PARSE_TOP_OP(p); |
| assign = (top >= BC_LEX_OP_ASSIGN_POWER && top <= BC_LEX_OP_ASSIGN); |
| |
| if (top == BC_LEX_LPAREN || top == BC_LEX_RPAREN) |
| return bc_error_bad_expression(); |
| |
| xc_parse_push(BC_TOKEN_2_INST(top)); |
| |
| nexprs -= (top != BC_LEX_OP_BOOL_NOT && top != XC_LEX_NEG); |
| bc_vec_pop(&p->ops); |
| } |
| |
| if (prev == XC_INST_BOOL_NOT || nexprs != 1) |
| return bc_error_bad_expression(); |
| |
| if (!(flags & BC_PARSE_REL) && nrelops) { |
| BcStatus s; |
| s = zbc_POSIX_does_not_allow("comparison operators outside if or loops"); |
| if (s) return s; |
| } else if ((flags & BC_PARSE_REL) && nrelops > 1) { |
| BcStatus s; |
| s = zbc_POSIX_requires("exactly one comparison operator per condition"); |
| if (s) return s; |
| } |
| |
| if (flags & BC_PARSE_PRINT) { |
| if (paren_first || !assign) |
| xc_parse_push(XC_INST_PRINT); |
| xc_parse_push(XC_INST_POP); |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| return BC_STATUS_SUCCESS; |
| } |
| |
| #endif // ENABLE_BC |
| |
| #if ENABLE_DC |
| |
| static BC_STATUS zdc_parse_register(void) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (p->lex != XC_LEX_NAME) RETURN_STATUS(bc_error_bad_token()); |
| |
| xc_parse_pushName(p->lex_strnumbuf.v); |
| |
| RETURN_STATUS(s); |
| } |
| #define zdc_parse_register(...) (zdc_parse_register(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void dc_parse_string(void) |
| { |
| BcParse *p = &G.prs; |
| char *str; |
| size_t len = G.prog.strs.len; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| |
| str = xstrdup(p->lex_strnumbuf.v); |
| xc_parse_push(XC_INST_STR); |
| xc_parse_pushIndex(len); |
| bc_vec_push(&G.prog.strs, &str); |
| |
| // Explanation needed here |
| xc_program_add_fn(); |
| p->func = xc_program_func(p->fidx); |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| } |
| |
| static BC_STATUS zdc_parse_mem(uint8_t inst, bool name, bool store) |
| { |
| BcStatus s; |
| |
| xc_parse_push(inst); |
| if (name) { |
| s = zdc_parse_register(); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| if (store) { |
| xc_parse_push(DC_INST_SWAP); |
| xc_parse_push(XC_INST_ASSIGN); |
| xc_parse_push(XC_INST_POP); |
| } |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zdc_parse_mem(...) (zdc_parse_mem(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_parse_cond(uint8_t inst) |
| { |
| BcParse *p = &G.prs; |
| BcStatus s; |
| |
| xc_parse_push(inst); |
| xc_parse_push(DC_INST_EXEC_COND); |
| |
| s = zdc_parse_register(); |
| if (s) RETURN_STATUS(s); |
| |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| |
| // Note that 'else' part can not be on the next line: |
| // echo -e '[1p]sa [2p]sb 2 1>a eb' | dc - OK, prints "2" |
| // echo -e '[1p]sa [2p]sb 2 1>a\neb' | dc - parse error |
| if (p->lex == DC_LEX_ELSE) { |
| s = zdc_parse_register(); |
| if (s) RETURN_STATUS(s); |
| s = zxc_lex_next(); |
| } else { |
| xc_parse_push('\0'); |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zdc_parse_cond(...) (zdc_parse_cond(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_parse_token(BcLexType t) |
| { |
| BcStatus s; |
| uint8_t inst; |
| bool assign, get_token; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = BC_STATUS_SUCCESS; |
| get_token = true; |
| switch (t) { |
| case XC_LEX_OP_REL_EQ: |
| case XC_LEX_OP_REL_LE: |
| case XC_LEX_OP_REL_GE: |
| case XC_LEX_OP_REL_NE: |
| case XC_LEX_OP_REL_LT: |
| case XC_LEX_OP_REL_GT: |
| dbg_lex("%s:%d LEX_OP_REL_xyz", __func__, __LINE__); |
| s = zdc_parse_cond(t - XC_LEX_OP_REL_EQ + XC_INST_REL_EQ); |
| get_token = false; |
| break; |
| case DC_LEX_SCOLON: |
| case DC_LEX_COLON: |
| dbg_lex("%s:%d LEX_[S]COLON", __func__, __LINE__); |
| s = zdc_parse_mem(XC_INST_ARRAY_ELEM, true, t == DC_LEX_COLON); |
| break; |
| case XC_LEX_STR: |
| dbg_lex("%s:%d LEX_STR", __func__, __LINE__); |
| dc_parse_string(); |
| break; |
| case XC_LEX_NEG: |
| dbg_lex("%s:%d LEX_NEG", __func__, __LINE__); |
| s = zxc_lex_next(); |
| if (s) RETURN_STATUS(s); |
| if (G.prs.lex != XC_LEX_NUMBER) |
| RETURN_STATUS(bc_error_bad_token()); |
| xc_parse_pushNUM(); |
| xc_parse_push(XC_INST_NEG); |
| break; |
| case XC_LEX_NUMBER: |
| dbg_lex("%s:%d LEX_NUMBER", __func__, __LINE__); |
| xc_parse_pushNUM(); |
| break; |
| case DC_LEX_READ: |
| dbg_lex("%s:%d LEX_KEY_READ", __func__, __LINE__); |
| xc_parse_push(XC_INST_READ); |
| break; |
| case DC_LEX_OP_ASSIGN: |
| case DC_LEX_STORE_PUSH: |
| dbg_lex("%s:%d LEX_OP_ASSIGN/STORE_PUSH", __func__, __LINE__); |
| assign = (t == DC_LEX_OP_ASSIGN); |
| inst = assign ? XC_INST_VAR : DC_INST_PUSH_TO_VAR; |
| s = zdc_parse_mem(inst, true, assign); |
| break; |
| case DC_LEX_LOAD: |
| case DC_LEX_LOAD_POP: |
| dbg_lex("%s:%d LEX_OP_LOAD[_POP]", __func__, __LINE__); |
| inst = t == DC_LEX_LOAD_POP ? DC_INST_PUSH_VAR : DC_INST_LOAD; |
| s = zdc_parse_mem(inst, true, false); |
| break; |
| case DC_LEX_STORE_IBASE: |
| case DC_LEX_STORE_SCALE: |
| case DC_LEX_STORE_OBASE: |
| dbg_lex("%s:%d LEX_OP_STORE_I/OBASE/SCALE", __func__, __LINE__); |
| inst = t - DC_LEX_STORE_IBASE + XC_INST_IBASE; |
| s = zdc_parse_mem(inst, false, true); |
| break; |
| default: |
| dbg_lex_done("%s:%d done (bad token)", __func__, __LINE__); |
| RETURN_STATUS(bc_error_bad_token()); |
| } |
| |
| if (!s && get_token) s = zxc_lex_next(); |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zdc_parse_token(...) (zdc_parse_token(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_parse_expr(void) |
| { |
| BcParse *p = &G.prs; |
| int i; |
| |
| i = (int)p->lex - (int)XC_LEX_OP_POWER; |
| if (i >= 0) { |
| BcInst inst = dc_LEX_to_INST[i]; |
| if (inst != DC_INST_INVALID) { |
| xc_parse_push(inst); |
| RETURN_STATUS(zxc_lex_next()); |
| } |
| } |
| RETURN_STATUS(zdc_parse_token(p->lex)); |
| } |
| #define zdc_parse_expr(...) (zdc_parse_expr(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_parse_exprs_until_eof(void) |
| { |
| BcParse *p = &G.prs; |
| dbg_lex_enter("%s:%d entered, p->lex:%d", __func__, __LINE__, p->lex); |
| while (p->lex != XC_LEX_EOF) { |
| BcStatus s = zdc_parse_expr(); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zdc_parse_exprs_until_eof(...) (zdc_parse_exprs_until_eof(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #endif // ENABLE_DC |
| |
| // |
| // Execution engine |
| // |
| |
| #define STACK_HAS_MORE_THAN(s, n) ((s)->len > ((size_t)(n))) |
| #define STACK_HAS_EQUAL_OR_MORE_THAN(s, n) ((s)->len >= ((size_t)(n))) |
| |
| static BcVec* xc_program_search(char *id, bool var) |
| { |
| BcId e, *ptr; |
| BcVec *v, *map; |
| size_t i; |
| int new; |
| |
| v = var ? &G.prog.vars : &G.prog.arrs; |
| map = var ? &G.prog.var_map : &G.prog.arr_map; |
| |
| e.name = id; |
| e.idx = v->len; |
| new = bc_map_insert(map, &e, &i); // 1 if insertion was successful |
| |
| if (new) { |
| BcVec v2; |
| bc_array_init(&v2, var); |
| bc_vec_push(v, &v2); |
| } |
| |
| ptr = bc_vec_item(map, i); |
| if (new) ptr->name = xstrdup(e.name); |
| return bc_vec_item(v, ptr->idx); |
| } |
| |
| // 'num' need not be initialized on entry |
| static BC_STATUS zxc_program_num(BcResult *r, BcNum **num, bool hex) |
| { |
| switch (r->t) { |
| case XC_RESULT_STR: |
| case XC_RESULT_TEMP: |
| case XC_RESULT_IBASE: |
| case XC_RESULT_SCALE: |
| case XC_RESULT_OBASE: |
| *num = &r->d.n; |
| break; |
| case XC_RESULT_CONSTANT: { |
| BcStatus s; |
| char *str; |
| unsigned base_t; |
| size_t len; |
| |
| str = *xc_program_const(r->d.id.idx); |
| len = strlen(str); |
| |
| bc_num_init(&r->d.n, len); |
| |
| hex = hex && len == 1; |
| base_t = hex ? 16 : G.prog.ib_t; |
| s = zxc_num_parse(&r->d.n, str, base_t); |
| if (s) { |
| bc_num_free(&r->d.n); |
| RETURN_STATUS(s); |
| } |
| *num = &r->d.n; |
| r->t = XC_RESULT_TEMP; |
| break; |
| } |
| case XC_RESULT_VAR: |
| case XC_RESULT_ARRAY: |
| case XC_RESULT_ARRAY_ELEM: { |
| BcVec *v; |
| |
| v = xc_program_search(r->d.id.name, r->t == XC_RESULT_VAR); |
| |
| if (r->t == XC_RESULT_ARRAY_ELEM) { |
| v = bc_vec_top(v); |
| if (v->len <= r->d.id.idx) bc_array_expand(v, r->d.id.idx + 1); |
| *num = bc_vec_item(v, r->d.id.idx); |
| } else |
| *num = bc_vec_top(v); |
| break; |
| } |
| #if ENABLE_BC |
| case BC_RESULT_LAST: |
| *num = &G.prog.last; |
| break; |
| case BC_RESULT_ONE: |
| *num = &G.prog.one; |
| break; |
| #endif |
| #if SANITY_CHECKS |
| default: |
| // Testing the theory that dc does not reach LAST/ONE |
| bb_error_msg_and_die("BUG:%d", r->t); |
| #endif |
| } |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zxc_program_num(...) (zxc_program_num(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_binOpPrep(BcResult **l, BcNum **ln, |
| BcResult **r, BcNum **rn, bool assign) |
| { |
| BcStatus s; |
| bool hex; |
| BcResultType lt, rt; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 1)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| |
| *r = bc_vec_item_rev(&G.prog.results, 0); |
| *l = bc_vec_item_rev(&G.prog.results, 1); |
| |
| lt = (*l)->t; |
| rt = (*r)->t; |
| hex = assign && (lt == XC_RESULT_IBASE || lt == XC_RESULT_OBASE); |
| |
| s = zxc_program_num(*l, ln, false); |
| if (s) RETURN_STATUS(s); |
| s = zxc_program_num(*r, rn, hex); |
| if (s) RETURN_STATUS(s); |
| |
| // We run this again under these conditions in case any vector has been |
| // reallocated out from under the BcNums or arrays we had. |
| if (lt == rt && (lt == XC_RESULT_VAR || lt == XC_RESULT_ARRAY_ELEM)) { |
| s = zxc_program_num(*l, ln, false); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| if (!BC_PROG_NUM((*l), (*ln)) && (!assign || (*l)->t != XC_RESULT_VAR)) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| if (!assign && !BC_PROG_NUM((*r), (*ln))) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_binOpPrep(...) (zxc_program_binOpPrep(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void xc_program_binOpRetire(BcResult *r) |
| { |
| r->t = XC_RESULT_TEMP; |
| bc_vec_pop(&G.prog.results); |
| bc_result_pop_and_push(r); |
| } |
| |
| // Note: *r and *n need not be initialized by caller |
| static BC_STATUS zxc_program_prep(BcResult **r, BcNum **n) |
| { |
| BcStatus s; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| *r = bc_vec_top(&G.prog.results); |
| |
| s = zxc_program_num(*r, n, false); |
| if (s) RETURN_STATUS(s); |
| |
| if (!BC_PROG_NUM((*r), (*n))) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_prep(...) (zxc_program_prep(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void xc_program_retire(BcResult *r, BcResultType t) |
| { |
| r->t = t; |
| bc_result_pop_and_push(r); |
| } |
| |
| static BC_STATUS zxc_program_op(char inst) |
| { |
| BcStatus s; |
| BcResult *opd1, *opd2, res; |
| BcNum *n1, *n2; |
| |
| s = zxc_program_binOpPrep(&opd1, &n1, &opd2, &n2, false); |
| if (s) RETURN_STATUS(s); |
| bc_num_init_DEF_SIZE(&res.d.n); |
| |
| s = BC_STATUS_SUCCESS; |
| IF_ERROR_RETURN_POSSIBLE(s =) zxc_program_ops[inst - XC_INST_POWER](n1, n2, &res.d.n, G.prog.scale); |
| if (s) goto err; |
| xc_program_binOpRetire(&res); |
| |
| RETURN_STATUS(s); |
| err: |
| bc_num_free(&res.d.n); |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_op(...) (zxc_program_op(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_read(void) |
| { |
| BcStatus s; |
| BcParse sv_parse; |
| BcVec buf; |
| BcInstPtr ip; |
| BcFunc *f; |
| |
| bc_char_vec_init(&buf); |
| xc_read_line(&buf, stdin); |
| |
| f = xc_program_func(BC_PROG_READ); |
| bc_vec_pop_all(&f->code); |
| |
| sv_parse = G.prs; // struct copy |
| xc_parse_create(BC_PROG_READ); |
| //G.err_line = G.prs.lex_line = 1; - not needed, error line info is not printed for read() |
| |
| s = zxc_parse_text_init(buf.v); |
| if (s) goto exec_err; |
| if (IS_BC) { |
| IF_BC(s = zbc_parse_expr(0)); |
| } else { |
| IF_DC(s = zdc_parse_exprs_until_eof()); |
| } |
| if (s) goto exec_err; |
| |
| if (G.prs.lex != XC_LEX_NLINE && G.prs.lex != XC_LEX_EOF) { |
| s = bc_error("bad read() expression"); |
| goto exec_err; |
| } |
| |
| ip.func = BC_PROG_READ; |
| ip.inst_idx = 0; |
| IF_BC(ip.results_len_before_call = G.prog.results.len;) |
| |
| xc_parse_push(XC_INST_RET); |
| bc_vec_push(&G.prog.exestack, &ip); |
| |
| exec_err: |
| xc_parse_free(); |
| G.prs = sv_parse; // struct copy |
| bc_vec_free(&buf); |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_read(...) (zxc_program_read(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static size_t xc_program_index(char *code, size_t *bgn) |
| { |
| unsigned char *bytes = (void*)(code + *bgn); |
| unsigned amt; |
| unsigned i; |
| size_t res; |
| |
| amt = *bytes++; |
| if (amt < SMALL_INDEX_LIMIT) { |
| *bgn += 1; |
| return amt; |
| } |
| amt -= SMALL_INDEX_LIMIT; |
| *bgn += amt + 1; |
| |
| amt *= 8; |
| res = 0; |
| for (i = 0; i < amt; i += 8) |
| res |= (size_t)(*bytes++) << i; |
| |
| return res; |
| } |
| |
| static char *xc_program_name(char *code, size_t *bgn) |
| { |
| code += *bgn; |
| *bgn += strlen(code) + 1; |
| |
| return xstrdup(code); |
| } |
| |
| static void xc_program_printString(const char *str) |
| { |
| #if ENABLE_DC |
| if (!str[0]) { |
| // Example: echo '[]ap' | dc |
| // should print two bytes: 0x00, 0x0A |
| bb_putchar('\0'); |
| return; |
| } |
| #endif |
| while (*str) { |
| int c = *str++; |
| if (c != '\\' || !*str) |
| bb_putchar(c); |
| else { |
| c = *str++; |
| switch (c) { |
| case 'a': |
| bb_putchar('\a'); |
| break; |
| case 'b': |
| bb_putchar('\b'); |
| break; |
| case '\\': |
| case 'e': |
| bb_putchar('\\'); |
| break; |
| case 'f': |
| bb_putchar('\f'); |
| break; |
| case 'n': |
| bb_putchar('\n'); |
| G.prog.nchars = SIZE_MAX; |
| break; |
| case 'r': |
| bb_putchar('\r'); |
| break; |
| case 'q': |
| bb_putchar('"'); |
| break; |
| case 't': |
| bb_putchar('\t'); |
| break; |
| default: |
| // Just print the backslash and following character. |
| bb_putchar('\\'); |
| ++G.prog.nchars; |
| bb_putchar(c); |
| break; |
| } |
| } |
| ++G.prog.nchars; |
| } |
| } |
| |
| static void bc_num_printNewline(void) |
| { |
| if (G.prog.nchars == G.prog.len - 1) { |
| bb_putchar('\\'); |
| bb_putchar('\n'); |
| G.prog.nchars = 0; |
| } |
| } |
| |
| #if ENABLE_DC |
| static FAST_FUNC void dc_num_printChar(size_t num, size_t width, bool radix) |
| { |
| (void) radix; |
| bb_putchar((char) num); |
| G.prog.nchars += width; |
| } |
| #endif |
| |
| static FAST_FUNC void bc_num_printDigits(size_t num, size_t width, bool radix) |
| { |
| size_t exp, pow; |
| |
| bc_num_printNewline(); |
| bb_putchar(radix ? '.' : ' '); |
| ++G.prog.nchars; |
| |
| bc_num_printNewline(); |
| for (exp = 0, pow = 1; exp < width - 1; ++exp, pow *= 10) |
| continue; |
| |
| for (exp = 0; exp < width; pow /= 10, ++G.prog.nchars, ++exp) { |
| size_t dig; |
| bc_num_printNewline(); |
| dig = num / pow; |
| num -= dig * pow; |
| bb_putchar(((char) dig) + '0'); |
| } |
| } |
| |
| static FAST_FUNC void bc_num_printHex(size_t num, size_t width, bool radix) |
| { |
| if (radix) { |
| bc_num_printNewline(); |
| bb_putchar('.'); |
| G.prog.nchars++; |
| } |
| |
| bc_num_printNewline(); |
| bb_putchar(bb_hexdigits_upcase[num]); |
| G.prog.nchars += width; |
| } |
| |
| static void bc_num_printDecimal(BcNum *n) |
| { |
| size_t i, rdx = n->rdx - 1; |
| |
| if (n->neg) { |
| bb_putchar('-'); |
| G.prog.nchars++; |
| } |
| |
| for (i = n->len - 1; i < n->len; --i) |
| bc_num_printHex((size_t) n->num[i], 1, i == rdx); |
| } |
| |
| typedef void (*BcNumDigitOp)(size_t, size_t, bool) FAST_FUNC; |
| |
| static BC_STATUS zxc_num_printNum(BcNum *n, unsigned base_t, size_t width, BcNumDigitOp print) |
| { |
| BcStatus s; |
| BcVec stack; |
| BcNum base; |
| BcDig base_digs[ULONG_NUM_BUFSIZE]; |
| BcNum intp, fracp, digit, frac_len; |
| unsigned long dig, *ptr; |
| size_t i; |
| bool radix; |
| |
| if (n->len == 0) { |
| print(0, width, false); |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| |
| bc_vec_init(&stack, sizeof(long), NULL); |
| bc_num_init(&intp, n->len); |
| bc_num_init(&fracp, n->rdx); |
| bc_num_init(&digit, width); |
| bc_num_init(&frac_len, BC_NUM_INT(n)); |
| bc_num_copy(&intp, n); |
| bc_num_one(&frac_len); |
| base.cap = ARRAY_SIZE(base_digs); |
| base.num = base_digs; |
| bc_num_ulong2num(&base, base_t); |
| |
| bc_num_truncate(&intp, intp.rdx); |
| s = zbc_num_sub(n, &intp, &fracp, 0); |
| if (s) goto err; |
| |
| while (intp.len != 0) { |
| s = zbc_num_divmod(&intp, &base, &intp, &digit, 0); |
| if (s) goto err; |
| s = zbc_num_ulong(&digit, &dig); |
| if (s) goto err; |
| bc_vec_push(&stack, &dig); |
| } |
| |
| for (i = 0; i < stack.len; ++i) { |
| ptr = bc_vec_item_rev(&stack, i); |
| print(*ptr, width, false); |
| } |
| |
| if (!n->rdx) goto err; |
| |
| for (radix = true; frac_len.len <= n->rdx; radix = false) { |
| s = zbc_num_mul(&fracp, &base, &fracp, n->rdx); |
| if (s) goto err; |
| s = zbc_num_ulong(&fracp, &dig); |
| if (s) goto err; |
| bc_num_ulong2num(&intp, dig); |
| s = zbc_num_sub(&fracp, &intp, &fracp, 0); |
| if (s) goto err; |
| print(dig, width, radix); |
| s = zbc_num_mul(&frac_len, &base, &frac_len, 0); |
| if (s) goto err; |
| } |
| err: |
| bc_num_free(&frac_len); |
| bc_num_free(&digit); |
| bc_num_free(&fracp); |
| bc_num_free(&intp); |
| bc_vec_free(&stack); |
| RETURN_STATUS(s); |
| } |
| #define zxc_num_printNum(...) (zxc_num_printNum(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_num_printBase(BcNum *n) |
| { |
| BcStatus s; |
| size_t width; |
| BcNumDigitOp print; |
| bool neg = n->neg; |
| |
| if (neg) { |
| bb_putchar('-'); |
| G.prog.nchars++; |
| } |
| |
| n->neg = false; |
| |
| if (G.prog.ob_t <= BC_NUM_MAX_IBASE) { |
| width = 1; |
| print = bc_num_printHex; |
| } else { |
| unsigned i = G.prog.ob_t - 1; |
| width = 0; |
| for (;;) { |
| width++; |
| i /= 10; |
| if (i == 0) |
| break; |
| } |
| print = bc_num_printDigits; |
| } |
| |
| s = zxc_num_printNum(n, G.prog.ob_t, width, print); |
| n->neg = neg; |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_num_printBase(...) (zxc_num_printBase(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_num_print(BcNum *n, bool newline) |
| { |
| BcStatus s = BC_STATUS_SUCCESS; |
| |
| bc_num_printNewline(); |
| |
| if (n->len == 0) { |
| bb_putchar('0'); |
| ++G.prog.nchars; |
| } else if (G.prog.ob_t == 10) |
| bc_num_printDecimal(n); |
| else |
| s = zxc_num_printBase(n); |
| |
| if (newline) { |
| bb_putchar('\n'); |
| G.prog.nchars = 0; |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_num_print(...) (zxc_num_print(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_print(char inst, size_t idx) |
| { |
| BcStatus s; |
| BcResult *r; |
| BcNum *num; |
| bool pop = (inst != XC_INST_PRINT); |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, idx)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| |
| r = bc_vec_item_rev(&G.prog.results, idx); |
| s = zxc_program_num(r, &num, false); |
| if (s) RETURN_STATUS(s); |
| |
| if (BC_PROG_NUM(r, num)) { |
| s = zxc_num_print(num, !pop); |
| #if ENABLE_BC |
| if (!s && IS_BC) bc_num_copy(&G.prog.last, num); |
| #endif |
| } else { |
| char *str; |
| |
| idx = (r->t == XC_RESULT_STR) ? r->d.id.idx : num->rdx; |
| str = *xc_program_str(idx); |
| |
| if (inst == XC_INST_PRINT_STR) { |
| for (;;) { |
| char c = *str++; |
| if (c == '\0') break; |
| bb_putchar(c); |
| ++G.prog.nchars; |
| if (c == '\n') G.prog.nchars = 0; |
| } |
| } else { |
| xc_program_printString(str); |
| if (inst == XC_INST_PRINT) bb_putchar('\n'); |
| } |
| } |
| |
| if (!s && pop) bc_vec_pop(&G.prog.results); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_print(...) (zxc_program_print(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_negate(void) |
| { |
| BcStatus s; |
| BcResult res, *ptr; |
| BcNum *num; |
| |
| s = zxc_program_prep(&ptr, &num); |
| if (s) RETURN_STATUS(s); |
| |
| bc_num_init(&res.d.n, num->len); |
| bc_num_copy(&res.d.n, num); |
| if (res.d.n.len) res.d.n.neg = !res.d.n.neg; |
| |
| xc_program_retire(&res, XC_RESULT_TEMP); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_negate(...) (zxc_program_negate(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_logical(char inst) |
| { |
| BcStatus s; |
| BcResult *opd1, *opd2, res; |
| BcNum *n1, *n2; |
| ssize_t cond; |
| |
| s = zxc_program_binOpPrep(&opd1, &n1, &opd2, &n2, false); |
| if (s) RETURN_STATUS(s); |
| |
| bc_num_init_DEF_SIZE(&res.d.n); |
| |
| if (inst == XC_INST_BOOL_AND) |
| cond = bc_num_cmp(n1, &G.prog.zero) && bc_num_cmp(n2, &G.prog.zero); |
| else if (inst == XC_INST_BOOL_OR) |
| cond = bc_num_cmp(n1, &G.prog.zero) || bc_num_cmp(n2, &G.prog.zero); |
| else { |
| cond = bc_num_cmp(n1, n2); |
| switch (inst) { |
| case XC_INST_REL_EQ: |
| cond = (cond == 0); |
| break; |
| case XC_INST_REL_LE: |
| cond = (cond <= 0); |
| break; |
| case XC_INST_REL_GE: |
| cond = (cond >= 0); |
| break; |
| case XC_INST_REL_LT: |
| cond = (cond < 0); |
| break; |
| case XC_INST_REL_GT: |
| cond = (cond > 0); |
| break; |
| default: // = case XC_INST_REL_NE: |
| //cond = (cond != 0); - not needed |
| break; |
| } |
| } |
| |
| if (cond) bc_num_one(&res.d.n); |
| //else bc_num_zero(&res.d.n); - already is |
| |
| xc_program_binOpRetire(&res); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_logical(...) (zxc_program_logical(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_DC |
| static BC_STATUS zdc_program_assignStr(BcResult *r, BcVec *v, bool push) |
| { |
| BcNum n2; |
| BcResult res; |
| |
| memset(&n2, 0, sizeof(BcNum)); |
| n2.rdx = res.d.id.idx = r->d.id.idx; |
| res.t = XC_RESULT_STR; |
| |
| if (!push) { |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 1)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| bc_vec_pop(v); |
| bc_vec_pop(&G.prog.results); |
| } |
| |
| bc_result_pop_and_push(&res); |
| bc_vec_push(v, &n2); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zdc_program_assignStr(...) (zdc_program_assignStr(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_DC |
| |
| static BC_STATUS zxc_program_copyToVar(char *name, bool var) |
| { |
| BcStatus s; |
| BcResult *ptr, r; |
| BcVec *v; |
| BcNum *n; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| |
| ptr = bc_vec_top(&G.prog.results); |
| if ((ptr->t == XC_RESULT_ARRAY) != !var) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| v = xc_program_search(name, var); |
| |
| #if ENABLE_DC |
| if (ptr->t == XC_RESULT_STR && !var) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| if (ptr->t == XC_RESULT_STR) |
| RETURN_STATUS(zdc_program_assignStr(ptr, v, true)); |
| #endif |
| |
| s = zxc_program_num(ptr, &n, false); |
| if (s) RETURN_STATUS(s); |
| |
| // Do this once more to make sure that pointers were not invalidated. |
| v = xc_program_search(name, var); |
| |
| if (var) { |
| bc_num_init_DEF_SIZE(&r.d.n); |
| bc_num_copy(&r.d.n, n); |
| } else { |
| bc_array_init(&r.d.v, true); |
| bc_array_copy(&r.d.v, (BcVec *) n); |
| } |
| |
| bc_vec_push(v, &r.d); |
| bc_vec_pop(&G.prog.results); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_copyToVar(...) (zxc_program_copyToVar(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_program_assign(char inst) |
| { |
| BcStatus s; |
| BcResult *left, *right, res; |
| BcNum *l, *r; |
| bool assign = (inst == XC_INST_ASSIGN); |
| bool ib, sc; |
| |
| s = zxc_program_binOpPrep(&left, &l, &right, &r, assign); |
| if (s) RETURN_STATUS(s); |
| |
| ib = left->t == XC_RESULT_IBASE; |
| sc = left->t == XC_RESULT_SCALE; |
| |
| #if ENABLE_DC |
| if (right->t == XC_RESULT_STR) { |
| BcVec *v; |
| |
| if (left->t != XC_RESULT_VAR) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| v = xc_program_search(left->d.id.name, true); |
| |
| RETURN_STATUS(zdc_program_assignStr(right, v, false)); |
| } |
| #endif |
| |
| if (left->t == XC_RESULT_CONSTANT || left->t == XC_RESULT_TEMP) |
| RETURN_STATUS(bc_error("bad assignment:" |
| " left side must be variable" |
| " or array element" |
| )); // note: shared string |
| |
| #if ENABLE_BC |
| if (inst == BC_INST_ASSIGN_DIVIDE && !bc_num_cmp(r, &G.prog.zero)) |
| RETURN_STATUS(bc_error("divide by zero")); |
| |
| if (assign) |
| bc_num_copy(l, r); |
| else { |
| s = BC_STATUS_SUCCESS; |
| IF_ERROR_RETURN_POSSIBLE(s =) zxc_program_ops[inst - BC_INST_ASSIGN_POWER](l, r, l, G.prog.scale); |
| } |
| if (s) RETURN_STATUS(s); |
| #else |
| bc_num_copy(l, r); |
| #endif |
| |
| if (ib || sc || left->t == XC_RESULT_OBASE) { |
| static const char *const msg[] = { |
| "bad ibase; must be [2,16]", //XC_RESULT_IBASE |
| "bad obase; must be [2,"BC_MAX_OBASE_STR"]", //XC_RESULT_OBASE |
| "bad scale; must be [0,"BC_MAX_SCALE_STR"]", //XC_RESULT_SCALE |
| }; |
| size_t *ptr; |
| size_t max; |
| unsigned long val; |
| |
| s = zbc_num_ulong(l, &val); |
| if (s) RETURN_STATUS(s); |
| s = left->t - XC_RESULT_IBASE; |
| if (sc) { |
| max = BC_MAX_SCALE; |
| ptr = &G.prog.scale; |
| } else { |
| if (val < 2) |
| RETURN_STATUS(bc_error(msg[s])); |
| max = ib ? BC_NUM_MAX_IBASE : BC_MAX_OBASE; |
| ptr = ib ? &G.prog.ib_t : &G.prog.ob_t; |
| } |
| |
| if (val > max) |
| RETURN_STATUS(bc_error(msg[s])); |
| |
| *ptr = (size_t) val; |
| s = BC_STATUS_SUCCESS; |
| } |
| |
| bc_num_init(&res.d.n, l->len); |
| bc_num_copy(&res.d.n, l); |
| xc_program_binOpRetire(&res); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_assign(...) (zxc_program_assign(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if !ENABLE_DC |
| #define xc_program_pushVar(code, bgn, pop, copy) \ |
| xc_program_pushVar(code, bgn) |
| // for bc, 'pop' and 'copy' are always false |
| #endif |
| static BC_STATUS xc_program_pushVar(char *code, size_t *bgn, |
| bool pop, bool copy) |
| { |
| BcResult r; |
| char *name = xc_program_name(code, bgn); |
| |
| r.t = XC_RESULT_VAR; |
| r.d.id.name = name; |
| |
| #if ENABLE_DC |
| if (pop || copy) { |
| BcVec *v = xc_program_search(name, true); |
| BcNum *num = bc_vec_top(v); |
| |
| free(name); |
| if (!STACK_HAS_MORE_THAN(v, 1 - copy)) { |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| } |
| |
| if (!BC_PROG_STR(num)) { |
| r.t = XC_RESULT_TEMP; |
| bc_num_init_DEF_SIZE(&r.d.n); |
| bc_num_copy(&r.d.n, num); |
| } else { |
| r.t = XC_RESULT_STR; |
| r.d.id.idx = num->rdx; |
| } |
| |
| if (!copy) bc_vec_pop(v); |
| } |
| #endif // ENABLE_DC |
| |
| bc_vec_push(&G.prog.results, &r); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zxc_program_pushVar(...) (xc_program_pushVar(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_program_pushArray(char *code, size_t *bgn, char inst) |
| { |
| BcStatus s = BC_STATUS_SUCCESS; |
| BcResult r; |
| BcNum *num; |
| |
| r.d.id.name = xc_program_name(code, bgn); |
| |
| if (inst == XC_INST_ARRAY) { |
| r.t = XC_RESULT_ARRAY; |
| bc_vec_push(&G.prog.results, &r); |
| } else { |
| BcResult *operand; |
| unsigned long temp; |
| |
| s = zxc_program_prep(&operand, &num); |
| if (s) goto err; |
| s = zbc_num_ulong(num, &temp); |
| if (s) goto err; |
| |
| if (temp > BC_MAX_DIM) { |
| s = bc_error("array too long; must be [1,"BC_MAX_DIM_STR"]"); |
| goto err; |
| } |
| |
| r.d.id.idx = (size_t) temp; |
| xc_program_retire(&r, XC_RESULT_ARRAY_ELEM); |
| } |
| err: |
| if (s) free(r.d.id.name); |
| RETURN_STATUS(s); |
| } |
| #define zbc_program_pushArray(...) (zbc_program_pushArray(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_BC |
| static BC_STATUS zbc_program_incdec(char inst) |
| { |
| BcStatus s; |
| BcResult *ptr, res, copy; |
| BcNum *num; |
| char inst2 = inst; |
| |
| s = zxc_program_prep(&ptr, &num); |
| if (s) RETURN_STATUS(s); |
| |
| if (inst == BC_INST_INC_POST || inst == BC_INST_DEC_POST) { |
| copy.t = XC_RESULT_TEMP; |
| bc_num_init(©.d.n, num->len); |
| bc_num_copy(©.d.n, num); |
| } |
| |
| res.t = BC_RESULT_ONE; |
| inst = (inst == BC_INST_INC_PRE || inst == BC_INST_INC_POST) |
| ? BC_INST_ASSIGN_PLUS |
| : BC_INST_ASSIGN_MINUS; |
| |
| bc_vec_push(&G.prog.results, &res); |
| s = zxc_program_assign(inst); |
| if (s) RETURN_STATUS(s); |
| |
| if (inst2 == BC_INST_INC_POST || inst2 == BC_INST_DEC_POST) { |
| bc_result_pop_and_push(©); |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zbc_program_incdec(...) (zbc_program_incdec(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_program_call(char *code, size_t *idx) |
| { |
| BcInstPtr ip; |
| size_t i, nparams; |
| BcFunc *func; |
| BcId *a; |
| BcResult *arg; |
| |
| nparams = xc_program_index(code, idx); |
| ip.inst_idx = 0; |
| ip.func = xc_program_index(code, idx); |
| func = xc_program_func(ip.func); |
| |
| if (func->code.len == 0) { |
| RETURN_STATUS(bc_error("undefined function")); |
| } |
| if (nparams != func->nparams) { |
| RETURN_STATUS(bc_error_fmt("function has %u parameters, but called with %u", func->nparams, nparams)); |
| } |
| ip.results_len_before_call = G.prog.results.len - nparams; |
| |
| for (i = 0; i < nparams; ++i) { |
| BcStatus s; |
| |
| a = bc_vec_item(&func->autos, nparams - 1 - i); |
| arg = bc_vec_top(&G.prog.results); |
| |
| if ((!a->idx) != (arg->t == XC_RESULT_ARRAY) || arg->t == XC_RESULT_STR) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| |
| s = zxc_program_copyToVar(a->name, a->idx); |
| if (s) RETURN_STATUS(s); |
| } |
| |
| a = bc_vec_item(&func->autos, i); |
| for (; i < func->autos.len; i++, a++) { |
| BcVec *v; |
| |
| v = xc_program_search(a->name, a->idx); |
| if (a->idx) { |
| BcNum n2; |
| bc_num_init_DEF_SIZE(&n2); |
| bc_vec_push(v, &n2); |
| } else { |
| BcVec v2; |
| bc_array_init(&v2, true); |
| bc_vec_push(v, &v2); |
| } |
| } |
| |
| bc_vec_push(&G.prog.exestack, &ip); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_program_call(...) (zbc_program_call(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zbc_program_return(char inst) |
| { |
| BcResult res; |
| BcFunc *f; |
| BcId *a; |
| size_t i; |
| BcInstPtr *ip = bc_vec_top(&G.prog.exestack); |
| |
| if (!STACK_HAS_EQUAL_OR_MORE_THAN(&G.prog.results, ip->results_len_before_call + (inst == XC_INST_RET))) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| |
| f = xc_program_func(ip->func); |
| res.t = XC_RESULT_TEMP; |
| |
| if (inst == XC_INST_RET) { |
| BcStatus s; |
| BcNum *num; |
| BcResult *operand = bc_vec_top(&G.prog.results); |
| |
| s = zxc_program_num(operand, &num, false); |
| if (s) RETURN_STATUS(s); |
| bc_num_init(&res.d.n, num->len); |
| bc_num_copy(&res.d.n, num); |
| } else { |
| bc_num_init_DEF_SIZE(&res.d.n); |
| //bc_num_zero(&res.d.n); - already is |
| } |
| |
| // We need to pop arguments as well, so this takes that into account. |
| a = (void*)f->autos.v; |
| for (i = 0; i < f->autos.len; i++, a++) { |
| BcVec *v; |
| v = xc_program_search(a->name, a->idx); |
| bc_vec_pop(v); |
| } |
| |
| bc_vec_npop(&G.prog.results, G.prog.results.len - ip->results_len_before_call); |
| bc_vec_push(&G.prog.results, &res); |
| bc_vec_pop(&G.prog.exestack); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zbc_program_return(...) (zbc_program_return(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_BC |
| |
| static unsigned long xc_program_scale(BcNum *n) |
| { |
| return (unsigned long) n->rdx; |
| } |
| |
| static unsigned long xc_program_len(BcNum *n) |
| { |
| size_t len = n->len; |
| |
| if (n->rdx != len) return len; |
| for (;;) { |
| if (len == 0) break; |
| len--; |
| if (n->num[len] != 0) break; |
| } |
| return len; |
| } |
| |
| static BC_STATUS zxc_program_builtin(char inst) |
| { |
| BcStatus s; |
| BcResult *opnd; |
| BcNum *num; |
| BcResult res; |
| bool len = (inst == XC_INST_LENGTH); |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| opnd = bc_vec_top(&G.prog.results); |
| |
| s = zxc_program_num(opnd, &num, false); |
| if (s) RETURN_STATUS(s); |
| |
| #if ENABLE_DC |
| if (!BC_PROG_NUM(opnd, num) && !len) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| #endif |
| |
| bc_num_init_DEF_SIZE(&res.d.n); |
| |
| if (inst == XC_INST_SQRT) |
| s = zbc_num_sqrt(num, &res.d.n, G.prog.scale); |
| #if ENABLE_BC |
| else if (len != 0 && opnd->t == XC_RESULT_ARRAY) { |
| bc_num_ulong2num(&res.d.n, (unsigned long) ((BcVec *) num)->len); |
| } |
| #endif |
| #if ENABLE_DC |
| else if (len != 0 && !BC_PROG_NUM(opnd, num)) { |
| char **str; |
| size_t idx = opnd->t == XC_RESULT_STR ? opnd->d.id.idx : num->rdx; |
| |
| str = xc_program_str(idx); |
| bc_num_ulong2num(&res.d.n, strlen(*str)); |
| } |
| #endif |
| else { |
| bc_num_ulong2num(&res.d.n, len ? xc_program_len(num) : xc_program_scale(num)); |
| } |
| |
| xc_program_retire(&res, XC_RESULT_TEMP); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_program_builtin(...) (zxc_program_builtin(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_DC |
| static BC_STATUS zdc_program_divmod(void) |
| { |
| BcStatus s; |
| BcResult *opd1, *opd2, res, res2; |
| BcNum *n1, *n2; |
| |
| s = zxc_program_binOpPrep(&opd1, &n1, &opd2, &n2, false); |
| if (s) RETURN_STATUS(s); |
| |
| bc_num_init_DEF_SIZE(&res.d.n); |
| bc_num_init(&res2.d.n, n2->len); |
| |
| s = zbc_num_divmod(n1, n2, &res2.d.n, &res.d.n, G.prog.scale); |
| if (s) goto err; |
| |
| xc_program_binOpRetire(&res2); |
| res.t = XC_RESULT_TEMP; |
| bc_vec_push(&G.prog.results, &res); |
| |
| RETURN_STATUS(s); |
| err: |
| bc_num_free(&res2.d.n); |
| bc_num_free(&res.d.n); |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_divmod(...) (zdc_program_divmod(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_program_modexp(void) |
| { |
| BcStatus s; |
| BcResult *r1, *r2, *r3, res; |
| BcNum *n1, *n2, *n3; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 2)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| s = zxc_program_binOpPrep(&r2, &n2, &r3, &n3, false); |
| if (s) RETURN_STATUS(s); |
| |
| r1 = bc_vec_item_rev(&G.prog.results, 2); |
| s = zxc_program_num(r1, &n1, false); |
| if (s) RETURN_STATUS(s); |
| if (!BC_PROG_NUM(r1, n1)) |
| RETURN_STATUS(bc_error_variable_is_wrong_type()); |
| |
| // Make sure that the values have their pointers updated, if necessary. |
| if (r1->t == XC_RESULT_VAR || r1->t == XC_RESULT_ARRAY_ELEM) { |
| if (r1->t == r2->t) { |
| s = zxc_program_num(r2, &n2, false); |
| if (s) RETURN_STATUS(s); |
| } |
| if (r1->t == r3->t) { |
| s = zxc_program_num(r3, &n3, false); |
| if (s) RETURN_STATUS(s); |
| } |
| } |
| |
| bc_num_init(&res.d.n, n3->len); |
| s = zdc_num_modexp(n1, n2, n3, &res.d.n); |
| if (s) goto err; |
| |
| bc_vec_pop(&G.prog.results); |
| xc_program_binOpRetire(&res); |
| |
| RETURN_STATUS(s); |
| err: |
| bc_num_free(&res.d.n); |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_modexp(...) (zdc_program_modexp(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static void dc_program_stackLen(void) |
| { |
| BcResult res; |
| size_t len = G.prog.results.len; |
| |
| res.t = XC_RESULT_TEMP; |
| |
| bc_num_init_DEF_SIZE(&res.d.n); |
| bc_num_ulong2num(&res.d.n, len); |
| bc_vec_push(&G.prog.results, &res); |
| } |
| |
| static BC_STATUS zdc_program_asciify(void) |
| { |
| BcStatus s; |
| BcResult *r, res; |
| BcNum *num, n; |
| char **strs; |
| char *str; |
| char c; |
| size_t idx; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| r = bc_vec_top(&G.prog.results); |
| |
| s = zxc_program_num(r, &num, false); |
| if (s) RETURN_STATUS(s); |
| |
| if (BC_PROG_NUM(r, num)) { |
| unsigned long val; |
| BcNum strmb; |
| BcDig strmb_digs[ULONG_NUM_BUFSIZE]; |
| |
| bc_num_init_DEF_SIZE(&n); |
| bc_num_copy(&n, num); |
| bc_num_truncate(&n, n.rdx); |
| |
| strmb.cap = ARRAY_SIZE(strmb_digs); |
| strmb.num = strmb_digs; |
| bc_num_ulong2num(&strmb, 0x100); |
| s = zbc_num_mod(&n, &strmb, &n, 0); |
| |
| if (s) goto num_err; |
| s = zbc_num_ulong(&n, &val); |
| if (s) goto num_err; |
| |
| c = (char) val; |
| |
| bc_num_free(&n); |
| } else { |
| char *sp; |
| idx = (r->t == XC_RESULT_STR) ? r->d.id.idx : num->rdx; |
| sp = *xc_program_str(idx); |
| c = sp[0]; |
| } |
| |
| strs = (void*)G.prog.strs.v; |
| for (idx = 0; idx < G.prog.strs.len; idx++) { |
| if (strs[idx][0] == c && strs[idx][1] == '\0') { |
| goto dup; |
| } |
| } |
| str = xzalloc(2); |
| str[0] = c; |
| //str[1] = '\0'; - already is |
| bc_vec_push(&G.prog.strs, &str); |
| dup: |
| res.t = XC_RESULT_STR; |
| res.d.id.idx = idx; |
| bc_result_pop_and_push(&res); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| num_err: |
| bc_num_free(&n); |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_asciify(...) (zdc_program_asciify(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_program_printStream(void) |
| { |
| BcStatus s; |
| BcResult *r; |
| BcNum *n; |
| size_t idx; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| r = bc_vec_top(&G.prog.results); |
| |
| s = zxc_program_num(r, &n, false); |
| if (s) RETURN_STATUS(s); |
| |
| if (BC_PROG_NUM(r, n)) { |
| s = zxc_num_printNum(n, 0x100, 1, dc_num_printChar); |
| } else { |
| char *str; |
| idx = (r->t == XC_RESULT_STR) ? r->d.id.idx : n->rdx; |
| str = *xc_program_str(idx); |
| fputs(str, stdout); |
| } |
| |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_printStream(...) (zdc_program_printStream(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_program_nquit(void) |
| { |
| BcStatus s; |
| BcResult *opnd; |
| BcNum *num; |
| unsigned long val; |
| |
| s = zxc_program_prep(&opnd, &num); |
| if (s) RETURN_STATUS(s); |
| s = zbc_num_ulong(num, &val); |
| if (s) RETURN_STATUS(s); |
| |
| bc_vec_pop(&G.prog.results); |
| |
| if (G.prog.exestack.len < val) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| if (G.prog.exestack.len == val) { |
| QUIT_OR_RETURN_TO_MAIN; |
| } |
| |
| bc_vec_npop(&G.prog.exestack, val); |
| |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_nquit(...) (zdc_program_nquit(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zdc_program_execStr(char *code, size_t *bgn, bool cond) |
| { |
| BcStatus s = BC_STATUS_SUCCESS; |
| BcResult *r; |
| BcFunc *f; |
| BcInstPtr ip; |
| size_t fidx, sidx; |
| |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| |
| r = bc_vec_top(&G.prog.results); |
| |
| if (cond) { |
| BcNum *n = n; // for compiler |
| bool exec; |
| char *name; |
| char *then_name = xc_program_name(code, bgn); |
| char *else_name = NULL; |
| |
| if (code[*bgn] == '\0') |
| (*bgn) += 1; |
| else |
| else_name = xc_program_name(code, bgn); |
| |
| exec = r->d.n.len != 0; |
| name = then_name; |
| if (!exec && else_name != NULL) { |
| exec = true; |
| name = else_name; |
| } |
| |
| if (exec) { |
| BcVec *v; |
| v = xc_program_search(name, true); |
| n = bc_vec_top(v); |
| } |
| |
| free(then_name); |
| free(else_name); |
| |
| if (!exec) goto exit; |
| if (!BC_PROG_STR(n)) { |
| s = bc_error_variable_is_wrong_type(); |
| goto exit; |
| } |
| |
| sidx = n->rdx; |
| } else { |
| if (r->t == XC_RESULT_STR) { |
| sidx = r->d.id.idx; |
| } else if (r->t == XC_RESULT_VAR) { |
| BcNum *n; |
| s = zxc_program_num(r, &n, false); |
| if (s || !BC_PROG_STR(n)) goto exit; |
| sidx = n->rdx; |
| } else |
| goto exit; |
| } |
| |
| fidx = sidx + BC_PROG_REQ_FUNCS; |
| |
| f = xc_program_func(fidx); |
| |
| if (f->code.len == 0) { |
| BcParse sv_parse; |
| char *str; |
| |
| sv_parse = G.prs; // struct copy |
| xc_parse_create(fidx); |
| str = *xc_program_str(sidx); |
| s = zxc_parse_text_init(str); |
| if (s) goto err; |
| |
| s = zdc_parse_exprs_until_eof(); |
| if (s) goto err; |
| xc_parse_push(DC_INST_POP_EXEC); |
| if (G.prs.lex != XC_LEX_EOF) |
| s = bc_error_bad_expression(); |
| xc_parse_free(); |
| G.prs = sv_parse; // struct copy |
| if (s) { |
| err: |
| bc_vec_pop_all(&f->code); |
| goto exit; |
| } |
| } |
| |
| ip.inst_idx = 0; |
| ip.func = fidx; |
| |
| bc_vec_pop(&G.prog.results); |
| bc_vec_push(&G.prog.exestack, &ip); |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| exit: |
| bc_vec_pop(&G.prog.results); |
| RETURN_STATUS(s); |
| } |
| #define zdc_program_execStr(...) (zdc_program_execStr(__VA_ARGS__) COMMA_SUCCESS) |
| #endif // ENABLE_DC |
| |
| static void xc_program_pushGlobal(char inst) |
| { |
| BcResult res; |
| unsigned long val; |
| |
| res.t = inst - XC_INST_IBASE + XC_RESULT_IBASE; |
| if (inst == XC_INST_IBASE) |
| val = (unsigned long) G.prog.ib_t; |
| else if (inst == XC_INST_SCALE) |
| val = (unsigned long) G.prog.scale; |
| else |
| val = (unsigned long) G.prog.ob_t; |
| |
| bc_num_init_DEF_SIZE(&res.d.n); |
| bc_num_ulong2num(&res.d.n, val); |
| bc_vec_push(&G.prog.results, &res); |
| } |
| |
| static BC_STATUS zxc_program_exec(void) |
| { |
| BcResult r, *ptr; |
| BcInstPtr *ip = bc_vec_top(&G.prog.exestack); |
| BcFunc *func = xc_program_func(ip->func); |
| char *code = func->code.v; |
| |
| dbg_exec("func:%zd bytes:%zd ip:%zd results.len:%d", |
| ip->func, func->code.len, ip->inst_idx, G.prog.results.len); |
| while (ip->inst_idx < func->code.len) { |
| BcStatus s = BC_STATUS_SUCCESS; |
| char inst = code[ip->inst_idx++]; |
| |
| dbg_exec("inst at %zd:%d results.len:%d", ip->inst_idx - 1, inst, G.prog.results.len); |
| switch (inst) { |
| #if ENABLE_BC |
| case BC_INST_JUMP_ZERO: { |
| BcNum *num; |
| bool zero; |
| dbg_exec("BC_INST_JUMP_ZERO:"); |
| s = zxc_program_prep(&ptr, &num); |
| if (s) RETURN_STATUS(s); |
| zero = (bc_num_cmp(num, &G.prog.zero) == 0); |
| bc_vec_pop(&G.prog.results); |
| if (!zero) { |
| xc_program_index(code, &ip->inst_idx); |
| break; |
| } |
| // else: fall through |
| } |
| case BC_INST_JUMP: { |
| size_t idx = xc_program_index(code, &ip->inst_idx); |
| size_t *addr = bc_vec_item(&func->labels, idx); |
| dbg_exec("BC_INST_JUMP: to %ld", (long)*addr); |
| ip->inst_idx = *addr; |
| break; |
| } |
| case BC_INST_CALL: |
| dbg_exec("BC_INST_CALL:"); |
| s = zbc_program_call(code, &ip->inst_idx); |
| goto read_updated_ip; |
| case BC_INST_INC_PRE: |
| case BC_INST_DEC_PRE: |
| case BC_INST_INC_POST: |
| case BC_INST_DEC_POST: |
| dbg_exec("BC_INST_INCDEC:"); |
| s = zbc_program_incdec(inst); |
| break; |
| case BC_INST_HALT: |
| dbg_exec("BC_INST_HALT:"); |
| QUIT_OR_RETURN_TO_MAIN; |
| break; |
| case XC_INST_RET: |
| case BC_INST_RET0: |
| dbg_exec("BC_INST_RET[0]:"); |
| s = zbc_program_return(inst); |
| goto read_updated_ip; |
| case XC_INST_BOOL_OR: |
| case XC_INST_BOOL_AND: |
| #endif // ENABLE_BC |
| case XC_INST_REL_EQ: |
| case XC_INST_REL_LE: |
| case XC_INST_REL_GE: |
| case XC_INST_REL_NE: |
| case XC_INST_REL_LT: |
| case XC_INST_REL_GT: |
| dbg_exec("BC_INST_BOOL:"); |
| s = zxc_program_logical(inst); |
| break; |
| case XC_INST_READ: |
| dbg_exec("XC_INST_READ:"); |
| s = zxc_program_read(); |
| goto read_updated_ip; |
| case XC_INST_VAR: |
| dbg_exec("XC_INST_VAR:"); |
| s = zxc_program_pushVar(code, &ip->inst_idx, false, false); |
| break; |
| case XC_INST_ARRAY_ELEM: |
| case XC_INST_ARRAY: |
| dbg_exec("XC_INST_ARRAY[_ELEM]:"); |
| s = zbc_program_pushArray(code, &ip->inst_idx, inst); |
| break; |
| #if ENABLE_BC |
| case BC_INST_LAST: |
| dbg_exec("BC_INST_LAST:"); |
| r.t = BC_RESULT_LAST; |
| bc_vec_push(&G.prog.results, &r); |
| break; |
| #endif |
| case XC_INST_IBASE: |
| case XC_INST_OBASE: |
| case XC_INST_SCALE: |
| dbg_exec("XC_INST_internalvar(%d):", inst - XC_INST_IBASE); |
| xc_program_pushGlobal(inst); |
| break; |
| case XC_INST_SCALE_FUNC: |
| case XC_INST_LENGTH: |
| case XC_INST_SQRT: |
| dbg_exec("BC_INST_builtin:"); |
| s = zxc_program_builtin(inst); |
| break; |
| case XC_INST_NUM: |
| dbg_exec("XC_INST_NUM:"); |
| r.t = XC_RESULT_CONSTANT; |
| r.d.id.idx = xc_program_index(code, &ip->inst_idx); |
| bc_vec_push(&G.prog.results, &r); |
| break; |
| case XC_INST_POP: |
| dbg_exec("XC_INST_POP:"); |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| s = bc_error_stack_has_too_few_elements(); |
| else |
| bc_vec_pop(&G.prog.results); |
| break; |
| case XC_INST_PRINT: |
| case XC_INST_PRINT_POP: |
| case XC_INST_PRINT_STR: |
| dbg_exec("XC_INST_PRINTxyz:"); |
| s = zxc_program_print(inst, 0); |
| break; |
| case XC_INST_STR: |
| dbg_exec("XC_INST_STR:"); |
| r.t = XC_RESULT_STR; |
| r.d.id.idx = xc_program_index(code, &ip->inst_idx); |
| bc_vec_push(&G.prog.results, &r); |
| break; |
| case XC_INST_POWER: |
| case XC_INST_MULTIPLY: |
| case XC_INST_DIVIDE: |
| case XC_INST_MODULUS: |
| case XC_INST_PLUS: |
| case XC_INST_MINUS: |
| dbg_exec("BC_INST_binaryop:"); |
| s = zxc_program_op(inst); |
| break; |
| case XC_INST_BOOL_NOT: { |
| BcNum *num; |
| dbg_exec("XC_INST_BOOL_NOT:"); |
| s = zxc_program_prep(&ptr, &num); |
| if (s) RETURN_STATUS(s); |
| bc_num_init_DEF_SIZE(&r.d.n); |
| if (bc_num_cmp(num, &G.prog.zero) == 0) |
| bc_num_one(&r.d.n); |
| //else bc_num_zero(&r.d.n); - already is |
| xc_program_retire(&r, XC_RESULT_TEMP); |
| break; |
| } |
| case XC_INST_NEG: |
| dbg_exec("XC_INST_NEG:"); |
| s = zxc_program_negate(); |
| break; |
| #if ENABLE_BC |
| 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: |
| #endif |
| case XC_INST_ASSIGN: |
| dbg_exec("BC_INST_ASSIGNxyz:"); |
| s = zxc_program_assign(inst); |
| break; |
| #if ENABLE_DC |
| case DC_INST_POP_EXEC: |
| dbg_exec("DC_INST_POP_EXEC:"); |
| bc_vec_pop(&G.prog.exestack); |
| goto read_updated_ip; |
| case DC_INST_MODEXP: |
| dbg_exec("DC_INST_MODEXP:"); |
| s = zdc_program_modexp(); |
| break; |
| case DC_INST_DIVMOD: |
| dbg_exec("DC_INST_DIVMOD:"); |
| s = zdc_program_divmod(); |
| break; |
| case DC_INST_EXECUTE: |
| case DC_INST_EXEC_COND: |
| dbg_exec("DC_INST_EXEC[_COND]:"); |
| s = zdc_program_execStr(code, &ip->inst_idx, inst == DC_INST_EXEC_COND); |
| goto read_updated_ip; |
| case DC_INST_PRINT_STACK: { |
| size_t idx; |
| dbg_exec("DC_INST_PRINT_STACK:"); |
| for (idx = 0; idx < G.prog.results.len; ++idx) { |
| s = zxc_program_print(XC_INST_PRINT, idx); |
| if (s) break; |
| } |
| break; |
| } |
| case DC_INST_CLEAR_STACK: |
| dbg_exec("DC_INST_CLEAR_STACK:"); |
| bc_vec_pop_all(&G.prog.results); |
| break; |
| case DC_INST_STACK_LEN: |
| dbg_exec("DC_INST_STACK_LEN:"); |
| dc_program_stackLen(); |
| break; |
| case DC_INST_DUPLICATE: |
| dbg_exec("DC_INST_DUPLICATE:"); |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 0)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| ptr = bc_vec_top(&G.prog.results); |
| dc_result_copy(&r, ptr); |
| bc_vec_push(&G.prog.results, &r); |
| break; |
| case DC_INST_SWAP: { |
| BcResult *ptr2; |
| dbg_exec("DC_INST_SWAP:"); |
| if (!STACK_HAS_MORE_THAN(&G.prog.results, 1)) |
| RETURN_STATUS(bc_error_stack_has_too_few_elements()); |
| ptr = bc_vec_item_rev(&G.prog.results, 0); |
| ptr2 = bc_vec_item_rev(&G.prog.results, 1); |
| memcpy(&r, ptr, sizeof(BcResult)); |
| memcpy(ptr, ptr2, sizeof(BcResult)); |
| memcpy(ptr2, &r, sizeof(BcResult)); |
| break; |
| } |
| case DC_INST_ASCIIFY: |
| dbg_exec("DC_INST_ASCIIFY:"); |
| s = zdc_program_asciify(); |
| break; |
| case DC_INST_PRINT_STREAM: |
| dbg_exec("DC_INST_PRINT_STREAM:"); |
| s = zdc_program_printStream(); |
| break; |
| case DC_INST_LOAD: |
| case DC_INST_PUSH_VAR: { |
| bool copy = inst == DC_INST_LOAD; |
| s = zxc_program_pushVar(code, &ip->inst_idx, true, copy); |
| break; |
| } |
| case DC_INST_PUSH_TO_VAR: { |
| char *name = xc_program_name(code, &ip->inst_idx); |
| s = zxc_program_copyToVar(name, true); |
| free(name); |
| break; |
| } |
| case DC_INST_QUIT: |
| dbg_exec("DC_INST_QUIT:"); |
| if (G.prog.exestack.len <= 2) |
| QUIT_OR_RETURN_TO_MAIN; |
| bc_vec_npop(&G.prog.exestack, 2); |
| goto read_updated_ip; |
| case DC_INST_NQUIT: |
| dbg_exec("DC_INST_NQUIT:"); |
| s = zdc_program_nquit(); |
| //goto read_updated_ip; - just fall through to it |
| #endif // ENABLE_DC |
| read_updated_ip: |
| // Instruction stack has changed, read new pointers |
| ip = bc_vec_top(&G.prog.exestack); |
| func = xc_program_func(ip->func); |
| code = func->code.v; |
| dbg_exec("func:%zd bytes:%zd ip:%zd", ip->func, func->code.len, ip->inst_idx); |
| } |
| |
| if (s || G_interrupt) { |
| xc_program_reset(); |
| RETURN_STATUS(s); |
| } |
| |
| fflush_and_check(); |
| } |
| |
| RETURN_STATUS(BC_STATUS_SUCCESS); |
| } |
| #define zxc_program_exec(...) (zxc_program_exec(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static unsigned xc_vm_envLen(const char *var) |
| { |
| char *lenv; |
| unsigned len; |
| |
| lenv = getenv(var); |
| len = BC_NUM_PRINT_WIDTH; |
| if (!lenv) return len; |
| |
| len = bb_strtou(lenv, NULL, 10) - 1; |
| if (errno || len < 2 || len >= INT_MAX) |
| len = BC_NUM_PRINT_WIDTH; |
| |
| return len; |
| } |
| |
| static BC_STATUS zxc_vm_process(const char *text) |
| { |
| BcStatus s; |
| |
| dbg_lex_enter("%s:%d entered", __func__, __LINE__); |
| s = zxc_parse_text_init(text); // does the first zxc_lex_next() |
| if (s) RETURN_STATUS(s); |
| |
| IF_BC(check_eof:) |
| while (G.prs.lex != XC_LEX_EOF) { |
| BcInstPtr *ip; |
| BcFunc *f; |
| |
| dbg_lex("%s:%d G.prs.lex:%d, parsing...", __func__, __LINE__, G.prs.lex); |
| if (IS_BC) { |
| #if ENABLE_BC |
| if (G.prs.lex == BC_LEX_SCOLON |
| || G.prs.lex == XC_LEX_NLINE |
| ) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| goto check_eof; |
| } |
| |
| s = zbc_parse_stmt_or_funcdef(); |
| if (s) goto err; |
| |
| // Check that next token is a correct stmt delimiter - |
| // disallows "print 1 print 2" and such. |
| if (G.prs.lex != BC_LEX_SCOLON |
| && G.prs.lex != XC_LEX_NLINE |
| && G.prs.lex != XC_LEX_EOF |
| ) { |
| const char *err_at; |
| //TODO: commonalize for other parse errors: |
| err_at = G.prs.lex_next_at ? G.prs.lex_next_at : "UNKNOWN"; |
| bc_error_fmt("bad statement terminator at '%.*s'", |
| (int)(strchrnul(err_at, '\n') - err_at), |
| err_at |
| ); |
| goto err; |
| } |
| // The above logic is fragile. Check these examples: |
| // - interactive read() still works |
| #endif |
| } else { |
| #if ENABLE_DC |
| // Most of dc parsing assumes all whitespace, |
| // including '\n', is eaten. |
| while (G.prs.lex == XC_LEX_NLINE) { |
| s = zxc_lex_next(); |
| if (s) goto err; |
| if (G.prs.lex == XC_LEX_EOF) |
| goto done; |
| } |
| s = zdc_parse_expr(); |
| #endif |
| } |
| if (s || G_interrupt) { |
| err: |
| xc_parse_reset(); // includes xc_program_reset() |
| RETURN_STATUS(BC_STATUS_FAILURE); |
| } |
| |
| dbg_lex("%s:%d executing...", __func__, __LINE__); |
| s = zxc_program_exec(); |
| if (s) { |
| xc_program_reset(); |
| break; |
| } |
| |
| ip = (void*)G.prog.exestack.v; |
| #if SANITY_CHECKS |
| if (G.prog.exestack.len != 1) // should have only main's IP |
| bb_error_msg_and_die("BUG:call stack"); |
| if (ip->func != BC_PROG_MAIN) |
| bb_error_msg_and_die("BUG:not MAIN"); |
| #endif |
| f = xc_program_func_BC_PROG_MAIN(); |
| // bc discards strings, constants and code after each |
| // top-level statement in the "main program". |
| // This prevents "yes 1 | bc" from growing its memory |
| // without bound. This can be done because data stack |
| // is empty and thus can't hold any references to |
| // strings or constants, there is no generated code |
| // which can hold references (after we discard one |
| // we just executed). Code of functions can have references, |
| // but bc stores function strings/constants in per-function |
| // storage. |
| if (IS_BC) { |
| #if SANITY_CHECKS |
| if (G.prog.results.len != 0) // should be empty |
| bb_error_msg_and_die("BUG:data stack"); |
| #endif |
| IF_BC(bc_vec_pop_all(&f->strs);) |
| IF_BC(bc_vec_pop_all(&f->consts);) |
| } else { |
| if (G.prog.results.len == 0 |
| && G.prog.vars.len == 0 |
| ) { |
| // If stack is empty and no registers exist (TODO: or they are all empty), |
| // we can get rid of accumulated strings and constants. |
| // In this example dc process should not grow |
| // its memory consumption with time: |
| // yes 1pc | dc |
| IF_DC(bc_vec_pop_all(&G.prog.strs);) |
| IF_DC(bc_vec_pop_all(&G.prog.consts);) |
| } |
| // The code is discarded always (below), thus this example |
| // should also not grow its memory consumption with time, |
| // even though its data stack is not empty: |
| // { echo 1; yes dk; } | dc |
| } |
| // We drop generated and executed code for both bc and dc: |
| bc_vec_pop_all(&f->code); |
| ip->inst_idx = 0; |
| } |
| IF_DC(done:) |
| dbg_lex_done("%s:%d done", __func__, __LINE__); |
| RETURN_STATUS(s); |
| } |
| #define zxc_vm_process(...) (zxc_vm_process(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_vm_execute_FILE(FILE *fp, const char *filename) |
| { |
| // So far bc/dc have no way to include a file from another file, |
| // therefore we know G.prs.lex_filename == NULL on entry |
| //const char *sv_file; |
| BcStatus s; |
| |
| G.prs.lex_filename = filename; |
| G.prs.lex_input_fp = fp; |
| G.err_line = G.prs.lex_line = 1; |
| |
| do { |
| s = zxc_vm_process(""); |
| // We do not stop looping on errors here if reading stdin. |
| // Example: start interactive bc and enter "return". |
| // It should say "'return' not in a function" |
| // but should not exit. |
| } while (G.prs.lex_input_fp == stdin); |
| G.prs.lex_filename = NULL; |
| RETURN_STATUS(s); |
| } |
| #define zxc_vm_execute_FILE(...) (zxc_vm_execute_FILE(__VA_ARGS__) COMMA_SUCCESS) |
| |
| static BC_STATUS zxc_vm_file(const char *file) |
| { |
| BcStatus s; |
| FILE *fp; |
| |
| fp = xfopen_for_read(file); |
| s = zxc_vm_execute_FILE(fp, file); |
| fclose(fp); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_vm_file(...) (zxc_vm_file(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_BC |
| static void bc_vm_info(void) |
| { |
| printf("%s "BB_VER"\n" |
| "Adapted from https://github.com/gavinhoward/bc\n" |
| "Original code (c) 2018 Gavin D. Howard and contributors\n" |
| , applet_name); |
| } |
| |
| static void bc_args(char **argv) |
| { |
| unsigned opts; |
| int i; |
| |
| GETOPT_RESET(); |
| #if ENABLE_FEATURE_BC_LONG_OPTIONS |
| opts = option_mask32 |= getopt32long(argv, "wvsqli", |
| "warn\0" No_argument "w" |
| "version\0" No_argument "v" |
| "standard\0" No_argument "s" |
| "quiet\0" No_argument "q" |
| "mathlib\0" No_argument "l" |
| "interactive\0" No_argument "i" |
| ); |
| #else |
| opts = option_mask32 |= getopt32(argv, "wvsqli"); |
| #endif |
| if (getenv("POSIXLY_CORRECT")) |
| option_mask32 |= BC_FLAG_S; |
| |
| if (opts & BC_FLAG_V) { |
| bc_vm_info(); |
| exit(0); |
| } |
| |
| for (i = optind; argv[i]; ++i) |
| bc_vec_push(&G.files, argv + i); |
| } |
| |
| static void bc_vm_envArgs(void) |
| { |
| BcVec v; |
| char *buf; |
| char *env_args = getenv("BC_ENV_ARGS"); |
| |
| if (!env_args) return; |
| |
| G.env_args = xstrdup(env_args); |
| buf = G.env_args; |
| |
| bc_vec_init(&v, sizeof(char *), NULL); |
| |
| while (*(buf = skip_whitespace(buf)) != '\0') { |
| bc_vec_push(&v, &buf); |
| buf = skip_non_whitespace(buf); |
| if (!*buf) |
| break; |
| *buf++ = '\0'; |
| } |
| |
| // NULL terminate, and pass argv[] so that first arg is argv[1] |
| if (sizeof(int) == sizeof(char*)) { |
| bc_vec_push(&v, &const_int_0); |
| } else { |
| static char *const nullptr = NULL; |
| bc_vec_push(&v, &nullptr); |
| } |
| bc_args(((char **)v.v) - 1); |
| |
| bc_vec_free(&v); |
| } |
| |
| static const char bc_lib[] ALIGN1 = { |
| "scale=20" |
| "\n" "define e(x){" |
| "\n" "auto b,s,n,r,d,i,p,f,v" |
| ////////////////"if(x<0)return(1/e(-x))" // and drop 'n' and x<0 logic below |
| //^^^^^^^^^^^^^^^^ this would work, and is even more precise than GNU bc: |
| //e(-.998896): GNU:.36828580434569428695 |
| // above code:.36828580434569428696 |
| // actual value:.3682858043456942869594... |
| // but for now let's be "GNU compatible" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "if(x<0){" |
| "\n" "n=1" |
| "\n" "x=-x" |
| "\n" "}" |
| "\n" "s=scale" |
| "\n" "r=6+s+.44*x" |
| "\n" "scale=scale(x)+1" |
| "\n" "while(x>1){" |
| "\n" "d+=1" |
| "\n" "x/=2" |
| "\n" "scale+=1" |
| "\n" "}" |
| "\n" "scale=r" |
| "\n" "r=x+1" |
| "\n" "p=x" |
| "\n" "f=v=1" |
| "\n" "for(i=2;v;++i){" |
| "\n" "p*=x" |
| "\n" "f*=i" |
| "\n" "v=p/f" |
| "\n" "r+=v" |
| "\n" "}" |
| "\n" "while(d--)r*=r" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "if(n)return(1/r)" |
| "\n" "return(r/1)" |
| "\n" "}" |
| "\n" "define l(x){" |
| "\n" "auto b,s,r,p,a,q,i,v" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "if(x<=0){" |
| "\n" "r=(1-10^scale)/1" |
| "\n" "ibase=b" |
| "\n" "return(r)" |
| "\n" "}" |
| "\n" "s=scale" |
| "\n" "scale+=6" |
| "\n" "p=2" |
| "\n" "while(x>=2){" |
| "\n" "p*=2" |
| "\n" "x=sqrt(x)" |
| "\n" "}" |
| "\n" "while(x<=.5){" |
| "\n" "p*=2" |
| "\n" "x=sqrt(x)" |
| "\n" "}" |
| "\n" "r=a=(x-1)/(x+1)" |
| "\n" "q=a*a" |
| "\n" "v=1" |
| "\n" "for(i=3;v;i+=2){" |
| "\n" "a*=q" |
| "\n" "v=a/i" |
| "\n" "r+=v" |
| "\n" "}" |
| "\n" "r*=p" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "return(r/1)" |
| "\n" "}" |
| "\n" "define s(x){" |
| "\n" "auto b,s,r,a,q,i" |
| "\n" "if(x<0)return(-s(-x))" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "s=scale" |
| "\n" "scale=1.1*s+2" |
| "\n" "a=a(1)" |
| "\n" "scale=0" |
| "\n" "q=(x/a+2)/4" |
| "\n" "x-=4*q*a" |
| "\n" "if(q%2)x=-x" |
| "\n" "scale=s+2" |
| "\n" "r=a=x" |
| "\n" "q=-x*x" |
| "\n" "for(i=3;a;i+=2){" |
| "\n" "a*=q/(i*(i-1))" |
| "\n" "r+=a" |
| "\n" "}" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "return(r/1)" |
| "\n" "}" |
| "\n" "define c(x){" |
| "\n" "auto b,s" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "s=scale" |
| "\n" "scale*=1.2" |
| "\n" "x=s(2*a(1)+x)" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "return(x/1)" |
| "\n" "}" |
| "\n" "define a(x){" |
| "\n" "auto b,s,r,n,a,m,t,f,i,u" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "n=1" |
| "\n" "if(x<0){" |
| "\n" "n=-1" |
| "\n" "x=-x" |
| "\n" "}" |
| "\n" "if(scale<65){" |
| "\n" "if(x==1)return(.7853981633974483096156608458198757210492923498437764552437361480/n)" |
| "\n" "if(x==.2)return(.1973955598498807583700497651947902934475851037878521015176889402/n)" |
| "\n" "}" |
| "\n" "s=scale" |
| "\n" "if(x>.2){" |
| "\n" "scale+=5" |
| "\n" "a=a(.2)" |
| "\n" "}" |
| "\n" "scale=s+3" |
| "\n" "while(x>.2){" |
| "\n" "m+=1" |
| "\n" "x=(x-.2)/(1+.2*x)" |
| "\n" "}" |
| "\n" "r=u=x" |
| "\n" "f=-x*x" |
| "\n" "t=1" |
| "\n" "for(i=3;t;i+=2){" |
| "\n" "u*=f" |
| "\n" "t=u/i" |
| "\n" "r+=t" |
| "\n" "}" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "return((m*a+r)/n)" |
| "\n" "}" |
| "\n" "define j(n,x){" |
| "\n" "auto b,s,o,a,i,v,f" |
| "\n" "b=ibase" |
| "\n" "ibase=A" |
| "\n" "s=scale" |
| "\n" "scale=0" |
| "\n" "n/=1" |
| "\n" "if(n<0){" |
| "\n" "n=-n" |
| "\n" "o=n%2" |
| "\n" "}" |
| "\n" "a=1" |
| "\n" "for(i=2;i<=n;++i)a*=i" |
| "\n" "scale=1.5*s" |
| "\n" "a=(x^n)/2^n/a" |
| "\n" "r=v=1" |
| "\n" "f=-x*x/4" |
| "\n" "scale+=length(a)-scale(a)" |
| "\n" "for(i=1;v;++i){" |
| "\n" "v=v*f/i/(n+i)" |
| "\n" "r+=v" |
| "\n" "}" |
| "\n" "scale=s" |
| "\n" "ibase=b" |
| "\n" "if(o)a=-a" |
| "\n" "return(a*r/1)" |
| "\n" "}" |
| }; |
| #endif // ENABLE_BC |
| |
| static BC_STATUS zxc_vm_exec(void) |
| { |
| char **fname; |
| BcStatus s; |
| size_t i; |
| |
| #if ENABLE_BC |
| if (option_mask32 & BC_FLAG_L) { |
| // We know that internal library is not buggy, |
| // thus error checking is normally disabled. |
| # define DEBUG_LIB 0 |
| s = zxc_vm_process(bc_lib); |
| if (DEBUG_LIB && s) RETURN_STATUS(s); |
| } |
| #endif |
| |
| s = BC_STATUS_SUCCESS; |
| fname = (void*)G.files.v; |
| for (i = 0; i < G.files.len; i++) { |
| s = zxc_vm_file(*fname++); |
| if (ENABLE_FEATURE_CLEAN_UP && !G_ttyin && s) { |
| // Debug config, non-interactive mode: |
| // return all the way back to main. |
| // Non-debug builds do not come here |
| // in non-interactive mode, they exit. |
| RETURN_STATUS(s); |
| } |
| } |
| |
| if (IS_BC || (option_mask32 & BC_FLAG_I)) |
| s = zxc_vm_execute_FILE(stdin, /*filename:*/ NULL); |
| |
| RETURN_STATUS(s); |
| } |
| #define zxc_vm_exec(...) (zxc_vm_exec(__VA_ARGS__) COMMA_SUCCESS) |
| |
| #if ENABLE_FEATURE_CLEAN_UP |
| static void xc_program_free(void) |
| { |
| bc_vec_free(&G.prog.fns); |
| IF_BC(bc_vec_free(&G.prog.fn_map);) |
| bc_vec_free(&G.prog.vars); |
| bc_vec_free(&G.prog.var_map); |
| bc_vec_free(&G.prog.arrs); |
| bc_vec_free(&G.prog.arr_map); |
| IF_DC(bc_vec_free(&G.prog.strs);) |
| IF_DC(bc_vec_free(&G.prog.consts);) |
| bc_vec_free(&G.prog.results); |
| bc_vec_free(&G.prog.exestack); |
| IF_BC(bc_num_free(&G.prog.last);) |
| //IF_BC(bc_num_free(&G.prog.zero);) |
| IF_BC(bc_num_free(&G.prog.one);) |
| bc_vec_free(&G.input_buffer); |
| } |
| |
| static void xc_vm_free(void) |
| { |
| bc_vec_free(&G.files); |
| xc_program_free(); |
| xc_parse_free(); |
| free(G.env_args); |
| } |
| #endif |
| |
| static void xc_program_init(void) |
| { |
| BcInstPtr ip; |
| |
| // memset(&G.prog, 0, sizeof(G.prog)); - already is |
| memset(&ip, 0, sizeof(BcInstPtr)); |
| |
| // G.prog.nchars = G.prog.scale = 0; - already is |
| G.prog.ib_t = 10; |
| G.prog.ob_t = 10; |
| |
| IF_BC(bc_num_init_DEF_SIZE(&G.prog.last);) |
| //IF_BC(bc_num_zero(&G.prog.last);) - already is |
| |
| //bc_num_init_DEF_SIZE(&G.prog.zero); - not needed |
| //bc_num_zero(&G.prog.zero); - already is |
| |
| IF_BC(bc_num_init_DEF_SIZE(&G.prog.one);) |
| IF_BC(bc_num_one(&G.prog.one);) |
| |
| bc_vec_init(&G.prog.fns, sizeof(BcFunc), bc_func_free); |
| IF_BC(bc_vec_init(&G.prog.fn_map, sizeof(BcId), bc_id_free);) |
| |
| if (IS_BC) { |
| // Names are chosen simply to be distinct and never match |
| // a valid function name (and be short) |
| IF_BC(bc_program_addFunc(xstrdup(""))); // func #0: main |
| IF_BC(bc_program_addFunc(xstrdup("1"))); // func #1: for read() |
| } else { |
| // in dc, functions have no names |
| xc_program_add_fn(); |
| xc_program_add_fn(); |
| } |
| |
| bc_vec_init(&G.prog.vars, sizeof(BcVec), bc_vec_free); |
| bc_vec_init(&G.prog.var_map, sizeof(BcId), bc_id_free); |
| |
| bc_vec_init(&G.prog.arrs, sizeof(BcVec), bc_vec_free); |
| bc_vec_init(&G.prog.arr_map, sizeof(BcId), bc_id_free); |
| |
| IF_DC(bc_vec_init(&G.prog.strs, sizeof(char *), bc_string_free);) |
| IF_DC(bc_vec_init(&G.prog.consts, sizeof(char *), bc_string_free);) |
| bc_vec_init(&G.prog.results, sizeof(BcResult), bc_result_free); |
| bc_vec_init(&G.prog.exestack, sizeof(BcInstPtr), NULL); |
| bc_vec_push(&G.prog.exestack, &ip); |
| |
| bc_char_vec_init(&G.input_buffer); |
| } |
| |
| static int xc_vm_init(const char *env_len) |
| { |
| #if ENABLE_FEATURE_EDITING |
| G.line_input_state = new_line_input_t(DO_HISTORY); |
| #endif |
| G.prog.len = xc_vm_envLen(env_len); |
| |
| bc_vec_init(&G.files, sizeof(char *), NULL); |
| xc_program_init(); |
| IF_BC(if (IS_BC) bc_vm_envArgs();) |
| xc_parse_create(BC_PROG_MAIN); |
| |
| //TODO: in GNU bc, the check is (isatty(0) && isatty(1)), |
| //-i option unconditionally enables this regardless of isatty(): |
| if (isatty(0)) { |
| #if ENABLE_FEATURE_BC_INTERACTIVE |
| G_ttyin = 1; |
| // With SA_RESTART, most system calls will restart |
| // (IOW: they won't fail with EINTR). |
| // In particular, this means ^C won't cause |
| // stdout to get into "error state" if SIGINT hits |
| // within write() syscall. |
| // |
| // The downside is that ^C while tty input is taken |
| // will only be handled after [Enter] since read() |
| // from stdin is not interrupted by ^C either, |
| // it restarts, thus fgetc() does not return on ^C. |
| // (This problem manifests only if line editing is disabled) |
| signal_SA_RESTART_empty_mask(SIGINT, record_signo); |
| |
| // Without SA_RESTART, this exhibits a bug: |
| // "while (1) print 1" and try ^C-ing it. |
| // Intermittently, instead of returning to input line, |
| // you'll get "output error: Interrupted system call" |
| // and exit. |
| //signal_no_SA_RESTART_empty_mask(SIGINT, record_signo); |
| #endif |
| return 1; // "tty" |
| } |
| return 0; // "not a tty" |
| } |
| |
| static BcStatus xc_vm_run(void) |
| { |
| BcStatus st = zxc_vm_exec(); |
| #if ENABLE_FEATURE_CLEAN_UP |
| if (G_exiting) // it was actually "halt" or "quit" |
| st = EXIT_SUCCESS; |
| xc_vm_free(); |
| # if ENABLE_FEATURE_EDITING |
| free_line_input_t(G.line_input_state); |
| # endif |
| FREE_G(); |
| #endif |
| dbg_exec("exiting with exitcode %d", st); |
| return st; |
| } |
| |
| #if ENABLE_BC |
| int bc_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; |
| int bc_main(int argc UNUSED_PARAM, char **argv) |
| { |
| int is_tty; |
| |
| INIT_G(); |
| |
| is_tty = xc_vm_init("BC_LINE_LENGTH"); |
| |
| bc_args(argv); |
| |
| if (is_tty && !(option_mask32 & BC_FLAG_Q)) |
| bc_vm_info(); |
| |
| return xc_vm_run(); |
| } |
| #endif |
| |
| #if ENABLE_DC |
| int dc_main(int argc, char **argv) MAIN_EXTERNALLY_VISIBLE; |
| int dc_main(int argc UNUSED_PARAM, char **argv) |
| { |
| int noscript; |
| |
| INIT_G(); |
| |
| // TODO: dc (GNU bc 1.07.1) 1.4.1 seems to use width |
| // 1 char wider than bc from the same package. |
| // Both default width, and xC_LINE_LENGTH=N are wider: |
| // "DC_LINE_LENGTH=5 dc -e'123456 p'" prints: |
| // |1234\ | |
| // |56 | |
| // "echo '123456' | BC_LINE_LENGTH=5 bc" prints: |
| // |123\ | |
| // |456 | |
| // Do the same, or it's a bug? |
| xc_vm_init("DC_LINE_LENGTH"); |
| |
| // Run -e'SCRIPT' and -fFILE in order of appearance, then handle FILEs |
| noscript = BC_FLAG_I; |
| for (;;) { |
| int n = getopt(argc, argv, "e:f:x"); |
| if (n <= 0) |
| break; |
| switch (n) { |
| case 'e': |
| noscript = 0; |
| n = zxc_vm_process(optarg); |
| if (n) return n; |
| break; |
| case 'f': |
| noscript = 0; |
| n = zxc_vm_file(optarg); |
| if (n) return n; |
| break; |
| case 'x': |
| option_mask32 |= DC_FLAG_X; |
| break; |
| default: |
| bb_show_usage(); |
| } |
| } |
| argv += optind; |
| |
| while (*argv) { |
| noscript = 0; |
| bc_vec_push(&G.files, argv++); |
| } |
| |
| option_mask32 |= noscript; // set BC_FLAG_I if we need to interpret stdin |
| |
| return xc_vm_run(); |
| } |
| #endif |
| |
| #endif // DC_BIG |
| |