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/* -----------------------------------------------------------------------------
* This file is part of SWIG, which is licensed as a whole under version 3
* (or any later version) of the GNU General Public License. Some additional
* terms also apply to certain portions of SWIG. The full details of the SWIG
* license and copyrights can be found in the LICENSE and COPYRIGHT files
* included with the SWIG source code as distributed by the SWIG developers
* and at https://www.swig.org/legal.html.
*
* expr.c
*
* Integer arithmetic expression evaluator used to handle expressions
* encountered during preprocessing.
*
* Note that this is used for expressions in `#if` and the like, but not
* for expressions in `#define` which SWIG wraps as constants - for those
* we inject a `%constant` directive which is handled by the parser in
* `Source/CParse/parser.y`.
* ----------------------------------------------------------------------------- */
#include "swig.h"
#include "preprocessor.h"
static Scanner *scan = 0;
typedef struct {
/* One of the EXPR_xxx values defined below. */
int op;
/* op == EXPR_OP: value is the token specifying which operator.
*
* op == EXPR_VALUE && svalue == NULL: Numeric expression value.
*
* Otherwise unused.
*/
long value;
/* op == EXPR_VALUE: If non-NULL, string expression value; if NULL see value.
*
* Otherwise unused.
*/
String *svalue;
} exprval;
#define EXPR_TOP 1
#define EXPR_VALUE 2
#define EXPR_OP 3
#define EXPR_GROUP 4
/* Special token values used here to distinguish from SWIG_TOKEN_MINUS
* and SWIG_TOKEN_PLUS (which we use here for a two argument versions).
*/
#define OP_UMINUS 100
#define OP_UPLUS 101
static exprval stack[256]; /* Parsing stack */
static int sp = 0; /* Stack pointer */
static int prec[256]; /* Precedence rules */
static int expr_init = 0; /* Initialization flag */
static const char *errmsg = 0; /* Parsing error */
/* Initialize the precedence table for various operators. Low values have higher precedence */
static void init_precedence(void) {
prec[SWIG_TOKEN_NOT] = 10;
prec[SWIG_TOKEN_LNOT] = 10;
prec[OP_UMINUS] = 10;
prec[OP_UPLUS] = 10;
prec[SWIG_TOKEN_STAR] = 20;
prec[SWIG_TOKEN_SLASH] = 20;
prec[SWIG_TOKEN_PERCENT] = 20;
prec[SWIG_TOKEN_PLUS] = 30;
prec[SWIG_TOKEN_MINUS] = 30;
prec[SWIG_TOKEN_LSHIFT] = 40;
prec[SWIG_TOKEN_RSHIFT] = 40;
prec[SWIG_TOKEN_LESSTHAN] = 50;
prec[SWIG_TOKEN_GREATERTHAN] = 50;
prec[SWIG_TOKEN_LTEQUAL] = 50;
prec[SWIG_TOKEN_GTEQUAL] = 50;
prec[SWIG_TOKEN_EQUALTO] = 60;
prec[SWIG_TOKEN_NOTEQUAL] = 60;
prec[SWIG_TOKEN_AND] = 70;
prec[SWIG_TOKEN_XOR] = 80;
prec[SWIG_TOKEN_OR] = 90;
prec[SWIG_TOKEN_LAND] = 100;
prec[SWIG_TOKEN_LOR] = 110;
expr_init = 1;
}
#define UNARY_OP(token) (((token) == SWIG_TOKEN_NOT) || \
((token) == SWIG_TOKEN_LNOT) || \
((token) == OP_UMINUS) || \
((token) == OP_UPLUS))
/* Reduce a single operator on the stack */
/* return 0 on failure, 1 on success */
static int reduce_op(void) {
long op_token = stack[sp - 1].value;
assert(sp > 0);
assert(stack[sp - 1].op == EXPR_OP);
/* do some basic checking first: */
if (stack[sp].op != EXPR_VALUE) {
errmsg = "Right-hand side is not value";
return 0;
}
if (UNARY_OP(op_token)) {
if (stack[sp].svalue) {
errmsg = "Syntax error: attempt to apply unary operator to string";
return 0;
}
} else {
/* binary operator: */
if (sp == 1) {
/* top of stack: don't attempt to use sp-2! */
errmsg = "Missing left-hand side for binary operator";
return 0;
}
if (stack[sp].op != EXPR_VALUE) {
errmsg = "Left-hand side of binary operator is not a value";
return 0;
}
if ((!stack[sp - 2].svalue) != (!stack[sp].svalue)) {
errmsg = "Can't mix strings and integers in expression";
return 0;
}
}
if (stack[sp].svalue) {
/* A binary string expression */
switch (stack[sp - 1].value) {
case SWIG_TOKEN_EQUALTO:
stack[sp - 2].value = (Strcmp(stack[sp - 2].svalue, stack[sp].svalue) == 0);
Delete(stack[sp - 2].svalue);
Delete(stack[sp].svalue);
sp -= 2;
break;
case SWIG_TOKEN_NOTEQUAL:
stack[sp - 2].value = (Strcmp(stack[sp - 2].svalue, stack[sp].svalue) != 0);
Delete(stack[sp - 2].svalue);
Delete(stack[sp].svalue);
sp -= 2;
break;
default:
errmsg = "Syntax error: bad binary operator for strings";
return 0;
break;
}
} else {
switch (op_token) {
case SWIG_TOKEN_STAR:
stack[sp - 2].value = stack[sp - 2].value * stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_EQUALTO:
stack[sp - 2].value = stack[sp - 2].value == stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_NOTEQUAL:
stack[sp - 2].value = stack[sp - 2].value != stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_PLUS:
stack[sp - 2].value = stack[sp - 2].value + stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_MINUS:
stack[sp - 2].value = stack[sp - 2].value - stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_AND:
stack[sp - 2].value = stack[sp - 2].value & stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_LAND:
stack[sp - 2].value = stack[sp - 2].value && stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_OR:
stack[sp - 2].value = stack[sp - 2].value | stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_LOR:
stack[sp - 2].value = stack[sp - 2].value || stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_XOR:
stack[sp - 2].value = stack[sp - 2].value ^ stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_LESSTHAN:
stack[sp - 2].value = stack[sp - 2].value < stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_GREATERTHAN:
stack[sp - 2].value = stack[sp - 2].value > stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_LTEQUAL:
stack[sp - 2].value = stack[sp - 2].value <= stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_GTEQUAL:
stack[sp - 2].value = stack[sp - 2].value >= stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_NOT:
stack[sp - 1].value = ~stack[sp].value;
sp--;
break;
case SWIG_TOKEN_LNOT:
stack[sp - 1].value = !stack[sp].value;
sp--;
break;
case OP_UMINUS:
stack[sp - 1].value = -stack[sp].value;
sp--;
break;
case OP_UPLUS:
stack[sp - 1].value = stack[sp].value;
sp--;
break;
case SWIG_TOKEN_SLASH:
if (stack[sp].value != 0) {
stack[sp - 2].value = stack[sp - 2].value / stack[sp].value;
sp -= 2;
} else {
errmsg = "Division by zero in expression";
return 0;
}
break;
case SWIG_TOKEN_PERCENT:
if (stack[sp].value != 0) {
stack[sp - 2].value = stack[sp - 2].value % stack[sp].value;
sp -= 2;
} else {
errmsg = "Modulo by zero in expression";
return 0;
}
break;
case SWIG_TOKEN_LSHIFT:
stack[sp - 2].value = stack[sp - 2].value << stack[sp].value;
sp -= 2;
break;
case SWIG_TOKEN_RSHIFT:
stack[sp - 2].value = stack[sp - 2].value >> stack[sp].value;
sp -= 2;
break;
default:
errmsg = "Syntax error: bad operator";
return 0;
break;
}
}
stack[sp].op = EXPR_VALUE;
stack[sp].svalue = 0; /* ensure it's not a string! */
return 1;
}
/* -----------------------------------------------------------------------------
* Preprocessor_expr_init()
*
* Initialize the expression evaluator
* ----------------------------------------------------------------------------- */
void Preprocessor_expr_init(void) {
if (!expr_init)
init_precedence();
if (!scan)
scan = NewScanner();
}
void Preprocessor_expr_delete(void) {
DelScanner(scan);
}
/* -----------------------------------------------------------------------------
* Tokenizer
* ----------------------------------------------------------------------------- */
static int expr_token(Scanner * s) {
int t;
while (1) {
t = Scanner_token(s);
if (!((t == SWIG_TOKEN_BACKSLASH) || (t == SWIG_TOKEN_ENDLINE) || (t == SWIG_TOKEN_COMMENT)))
break;
}
return t;
}
/* -----------------------------------------------------------------------------
* Preprocessor_expr()
*
* Evaluates an arithmetic expression. Returns the result and sets an error code.
* ----------------------------------------------------------------------------- */
int Preprocessor_expr(DOH *s, int *error) {
int token = 0;
int op = 0;
sp = 0;
assert(s);
assert(scan);
Seek(s, 0, SEEK_SET);
/* Printf(stdout,"evaluating : '%s'\n", s); */
*error = 0;
Scanner_clear(scan);
Scanner_push(scan, s);
/* Put initial state onto the stack */
stack[sp].op = EXPR_TOP;
while (1) {
/* Look at the top of the stack */
switch (stack[sp].op) {
case EXPR_TOP:
/* EXPR_TOP is a place-holder which can only appear on the top of the
* stack. We can reduce it to any expression - a number, a string, an
* unary operator, or another expression enclosed in parentheses.
*/
token = expr_token(scan);
if (!token) {
errmsg = "Expected an expression";
*error = 1;
return 0;
}
if ((token == SWIG_TOKEN_INT) || (token == SWIG_TOKEN_UINT) || (token == SWIG_TOKEN_LONG) || (token == SWIG_TOKEN_ULONG)) {
/* A number. Reduce EXPR_TOP to an EXPR_VALUE */
char *c = Char(Scanner_text(scan));
if (c[0] == '0' && (c[1] == 'b' || c[1] == 'B')) {
/* strtol() doesn't handle binary constants */
stack[sp].value = (long) strtol(c + 2, 0, 2);
} else {
stack[sp].value = (long) strtol(c, 0, 0);
}
stack[sp].svalue = 0;
stack[sp].op = EXPR_VALUE;
} else if ((token == SWIG_TOKEN_MINUS) || (token == SWIG_TOKEN_PLUS) || (token == SWIG_TOKEN_LNOT) || (token == SWIG_TOKEN_NOT)) {
if (token == SWIG_TOKEN_MINUS)
token = OP_UMINUS;
else if (token == SWIG_TOKEN_PLUS)
token = OP_UPLUS;
stack[sp].value = token;
stack[sp].op = EXPR_OP;
sp++;
stack[sp].op = EXPR_TOP;
} else if (token == SWIG_TOKEN_LPAREN) {
stack[sp].op = EXPR_GROUP;
sp++;
stack[sp].op = EXPR_TOP;
} else if (token == SWIG_TOKEN_ENDLINE) {
} else if (token == SWIG_TOKEN_STRING) {
stack[sp].svalue = NewString(Scanner_text(scan));
stack[sp].op = EXPR_VALUE;
} else if (token == SWIG_TOKEN_ID) {
/* Defined macros have been expanded already so this is an unknown
* macro, which gets treated as zero.
*/
stack[sp].value = 0;
stack[sp].svalue = 0;
stack[sp].op = EXPR_VALUE;
} else if ((token == SWIG_TOKEN_FLOAT) || (token == SWIG_TOKEN_DOUBLE)) {
errmsg = "Floating point constant in preprocessor expression";
*error = 1;
return 0;
} else
goto syntax_error;
break;
case EXPR_VALUE:
/* A value is on top of the stack. We may reduce or evaluate depending
* on what the next token is.
*/
token = expr_token(scan);
if (!token) {
/* End of input. Might have to reduce if an operator is on stack */
while (sp > 0) {
if (stack[sp - 1].op == EXPR_OP) {
if (!reduce_op())
goto reduce_error;
} else if (stack[sp - 1].op == EXPR_GROUP) {
errmsg = "Missing \')\'";
*error = 1;
return 0;
} else
goto syntax_error;
}
return stack[sp].value;
}
/* Token must be an operator */
switch (token) {
case SWIG_TOKEN_STAR:
case SWIG_TOKEN_EQUALTO:
case SWIG_TOKEN_NOTEQUAL:
case SWIG_TOKEN_PLUS:
case SWIG_TOKEN_MINUS:
case SWIG_TOKEN_AND:
case SWIG_TOKEN_LAND:
case SWIG_TOKEN_OR:
case SWIG_TOKEN_LOR:
case SWIG_TOKEN_XOR:
case SWIG_TOKEN_LESSTHAN:
case SWIG_TOKEN_GREATERTHAN:
case SWIG_TOKEN_LTEQUAL:
case SWIG_TOKEN_GTEQUAL:
case SWIG_TOKEN_SLASH:
case SWIG_TOKEN_PERCENT:
case SWIG_TOKEN_LSHIFT:
case SWIG_TOKEN_RSHIFT:
if ((sp == 0) || (stack[sp - 1].op == EXPR_GROUP)) {
/* No possibility of reduce. Push operator and expression */
sp++;
stack[sp].op = EXPR_OP;
stack[sp].value = token;
sp++;
stack[sp].op = EXPR_TOP;
} else {
if (stack[sp - 1].op != EXPR_OP)
goto syntax_error_expected_operator;
op = stack[sp - 1].value; /* Previous operator */
/* Now, depending on the precedence relationship between the last operator and the current
we will reduce or push */
if (prec[op] <= prec[token]) {
/* Reduce the previous operator */
if (!reduce_op())
goto reduce_error;
}
sp++;
stack[sp].op = EXPR_OP;
stack[sp].value = token;
sp++;
stack[sp].op = EXPR_TOP;
}
break;
case SWIG_TOKEN_RPAREN:
if (sp == 0)
goto extra_rparen;
/* Might have to reduce operators first */
while ((sp > 0) && (stack[sp - 1].op == EXPR_OP)) {
if (!reduce_op())
goto reduce_error;
}
if ((sp == 0) || (stack[sp - 1].op != EXPR_GROUP))
goto extra_rparen;
stack[sp - 1].op = EXPR_VALUE;
stack[sp - 1].value = stack[sp].value;
stack[sp - 1].svalue = stack[sp].svalue;
sp--;
break;
case SWIG_TOKEN_LTEQUALGT:
goto spaceship_not_allowed;
default:
goto syntax_error_expected_operator;
break;
}
break;
default:
fprintf(stderr, "Internal error in expression evaluator.\n");
Exit(EXIT_FAILURE);
}
}
syntax_error:
errmsg = "Syntax error";
*error = 1;
return 0;
syntax_error_expected_operator:
errmsg = "Syntax error: expected operator";
*error = 1;
return 0;
reduce_error:
/* errmsg has been set by reduce_op */
*error = 1;
return 0;
extra_rparen:
errmsg = "Extra \')\'";
*error = 1;
return 0;
spaceship_not_allowed:
errmsg = "Spaceship operator (<=>) not allowed in preprocessor expression";
*error = 1;
return 0;
}
/* -----------------------------------------------------------------------------
* Preprocessor_expr_error()
*
* Return error message set by the evaluator (if any)
* ----------------------------------------------------------------------------- */
const char *Preprocessor_expr_error(void) {
return errmsg;
}
|