Deleted the egg example...it was annoying me.

author: Mike Buland <eichlan@xagasoft.com> 2007-04-03 03:43:22 +0000
committer: Mike Buland <eichlan@xagasoft.com> 2007-04-03 03:43:22 +0000
commit: c613ec4abb31983babb6c87e637624a13ee60bd6 (patch)
tree: be8cb278c3bace4ddc62bafe51cb7a113921ce05
parent: a8e7b44c9981dd5d65b0b97f1d2ee34927a0f2a5 (diff)
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3 files changed, 0 insertions, 828 deletions
diff --git a/parex/egg.h b/parex/egg.h
deleted file mode 100644
index 6830edd..0000000
--- a/parex/egg.h
+++ /dev/null
@@ -1,127 +0,0 @@
-/* 
- *  EGG.H - part of the EGG system.
- *
- *  Global definitions and function prototypes.
- *
- *  By Shawn Hargreaves.
- */
-#ifndef __EGG_H__
-#define __EGG_H__
-#ifndef TRUE 
-#define TRUE         -1
-#define FALSE        0
-#endif
-#ifndef MIN
-#define MIN(x,y)     (((x) < (y)) ? (x) : (y))
-#define MAX(x,y)     (((x) > (y)) ? (x) : (y))
-#define MID(x,y,z)   MAX((x), MIN((y), (z)))
-#endif
-#ifndef ABS
-#define ABS(x)       (((x) >= 0) ? (x) : (-(x)))
-#endif
-#ifndef ALLEGRO_H
-struct BITMAP;
-#endif
-/* possible particle commands (ie. language keywords) */
-#define EGG_COMMAND_INIT   1
-#define EGG_COMMAND_SET    2
-#define EGG_COMMAND_IF     3
-#define EGG_COMMAND_LAY    4
-#define EGG_COMMAND_DIE    5
-/* each particle is controlled by a command list */
-typedef struct EGG_COMMAND
-{
-   int type;                        /* command type */
-   int line;                        /* source line number */
-   char *var;                       /* variable to be set */
-   char *exp;                       /* arithmetic expression */
-   struct EGG_COMMAND *cmd;         /* nested, child command list (if) */
-   struct EGG_COMMAND *cmd2;        /* more child commands (else) */
-   struct EGG_COMMAND *next;        /* linked list pointer */
-} EGG_COMMAND;
-/* each type of particle is defined by one of these structures */
-typedef struct EGG_TYPE
-{
-   char *name;                      /* type name */
-   EGG_COMMAND *cmd;                /* command list */
-   struct EGG_TYPE *next;           /* linked list pointer */
-} EGG_TYPE;
-/* particles store their state variables in these structures */
-typedef struct EGG_VARIABLE
-{
-   char *name;                      /* variable name */
-   double val;                      /* current value */
-   struct EGG_VARIABLE *next;       /* linked list pointer */
-} EGG_VARIABLE;
-/* a specific particle instance */
-typedef struct EGG_PARTICLE
-{
-   int num;                         /* unique ID number */
-   EGG_TYPE *type;                  /* type information */
-   EGG_VARIABLE *var;               /* list of variables */
-   struct EGG_PARTICLE *next;       /* linked list pointer */
-} EGG_PARTICLE;
-/* everything you need to know about an EGG particle system */
-typedef struct EGG
-{
-   int frame;                       /* animation frame number */
-   int part_count;                  /* number of active particles */
-   int part_num;                    /* particle ID counter */
-   EGG_PARTICLE *part;              /* list of particle instances */
-   EGG_TYPE *type;                  /* list of particle types */
-   EGG_VARIABLE *var;               /* list of global variables */
-} EGG;
-/* script loading functions */
-EGG *load_egg(char *filename, char *error);
-EGG *use_egg(void *data, int length, char *error);
-/* script unloading function */
-void destroy_egg(EGG *egg);
-/* script interpreter */
-int update_egg(EGG *egg, char *error);
-/* renders the current animation state into an Allegro bitmap */
-void lay_egg(EGG *egg, struct BITMAP *bmp);
-/* internal utility functions */
-double evaluate(char *equation, int *error, double (*variable)(char *name));
-int process_egg_cmd(EGG *egg, EGG_PARTICLE *part, EGG_PARTICLE *other, EGG_COMMAND *cmd, int init, int set, char *error);
-void destroy_egg_cmd(EGG_COMMAND *cmd);
-double get_egg_variable(EGG_PARTICLE *part, EGG_PARTICLE *other, EGG *egg, char *name);
-void set_egg_variable(EGG_PARTICLE *part, EGG_PARTICLE *other, EGG *egg, char *name, double value);
-#endif      /* __EGG_H__ */
diff --git a/parex/eval.c b/parex/eval.c
deleted file mode 100644
index 7eb9607..0000000
--- a/parex/eval.c
+++ /dev/null
@@ -1,651 +0,0 @@
-/* 
- *  EVAL.C - part of the EGG system.
- *
- *  Helper routine for evaluating arithmetic expressions.
- *
- *  By Shawn Hargreaves.
- */
-#include <stdlib.h>
-#include <string.h>
-#include <stdio.h>
-#include <ctype.h>
-#include <math.h>
-#ifndef M_PI
-#define M_PI      3.14159265358979323846
-#endif
-#ifndef M_E
-#define M_E       2.7182818284590452354
-#endif
-#include "egg.h"
-/* convert radians <-> degrees */
-#define DEG2RAD(x)   ((x)*M_PI/180.0)
-#define RAD2DEG(x)   ((x)*180.0/M_PI)
-/* internal state information */
-static int evaluate_error;
-static char operator_stack[256];
-static double value_stack[256];
-static int stack_depth;
-static double current_val;
-static int current_valid;
-/* operator tokens */
-#define OP_OPEN_PAREN      '('
-#define OP_CLOSE_PAREN     ')'
-#define OP_PLUS            '+'
-#define OP_MINUS           '-'
-#define OP_MUL             '*'
-#define OP_DIV             '/'
-#define OP_POWER           '^'
-#define OP_NEGATE          '~'
-#define OP_SQRT            'q'
-#define OP_SIN             's'
-#define OP_COS             'c'
-#define OP_TAN             't'
-#define OP_ASIN            'S'
-#define OP_ACOS            'C'
-#define OP_ATAN            'T'
-#define OP_LOG             'l'
-#define OP_LN              'L'
-#define OP_CEIL            'e'
-#define OP_FLOOR           'f'
-#define OP_ROUND           'r'
-#define OP_ABS             'a'
-#define OP_MOD             '%'
-#define OP_EQUALS          '='
-#define OP_NOT_EQUALS      '#'
-#define OP_LESS            '<'
-#define OP_GREATER         '>'
-#define OP_LESS_EQUALS     '{'
-#define OP_GREATER_EQUALS  '}'
-#define OP_OR              '|'
-#define OP_AND             '&'
-#define OP_NOT             '!'
-#define OP_TERMINATOR      ' '
-/* precedence:
- *  Returns the precedence of the specified operator.
- */
-static int precedence(char op)
-{
-   switch (op) {
-      case OP_OPEN_PAREN:
-      case OP_CLOSE_PAREN:
-         return 1;
-      case OP_TERMINATOR:
-         return 2;
-      case OP_OR:
-      case OP_AND:
-         return 3;
-      case OP_EQUALS:
-      case OP_NOT_EQUALS:
-      case OP_LESS:
-      case OP_GREATER:
-      case OP_LESS_EQUALS:
-      case OP_GREATER_EQUALS:
-         return 4;
-      case OP_PLUS:
-      case OP_MINUS:
-         return 5;
-      case OP_MUL:
-      case OP_DIV:
-      case OP_MOD:
-         return 6;
-      case OP_POWER:
-         return 7;
-      case OP_NEGATE:
-      case OP_NOT:
-      case OP_SQRT:
-      case OP_SIN:
-      case OP_COS:
-      case OP_TAN:
-      case OP_ASIN:
-      case OP_ACOS:
-      case OP_ATAN:
-      case OP_LOG:
-      case OP_LN:
-      case OP_CEIL:
-      case OP_FLOOR:
-      case OP_ROUND:
-      case OP_ABS:
-         return 8;
-      default:
-         return -1;
-   }
-}
-/* is_unary:
- *  Checks whether an operator is unary.
- */
-static int is_unary(char op)
-{
-   if ((op == OP_NEGATE) || (op == OP_SQRT) || (op == OP_SIN)   ||
-       (op == OP_COS)    || (op == OP_TAN)  || (op == OP_ASIN)  ||
-       (op == OP_ACOS)   || (op == OP_ATAN) || (op == OP_LOG)   ||
-       (op == OP_LN)     || (op == OP_CEIL) || (op == OP_FLOOR) ||
-       (op == OP_ROUND)  || (op == OP_ABS)  || (op == OP_NOT))
-      return TRUE;
-   return FALSE;
-}
-/* add_value:
- *  Processes a new numeric value from the input string.
- */
-static void add_value(double val)
-{
-   if (current_valid) {
-      evaluate_error = TRUE;
-      return;
-   }
-   current_val = val;
-   current_valid = TRUE;
-}
-/* add_operator:
- *  Processes a new operator from the input string.
- */
-static void add_operator(char op)
-{
-   /* bodge for unary negation */
-   if ((op == OP_MINUS) && (!current_valid))
-      op = OP_NEGATE;
-   /* check validity */
-   if ((op == OP_PLUS)        || (op == OP_MINUS)          || 
-       (op == OP_MUL)         || (op == OP_DIV)            || 
-       (op == OP_POWER)       || (op == OP_MOD)            ||
-       (op == OP_EQUALS)      || (op == OP_NOT_EQUALS)     ||
-       (op == OP_LESS)        || (op == OP_GREATER)        ||
-       (op == OP_LESS_EQUALS) || (op == OP_GREATER_EQUALS) ||
-       (op == OP_OR)          || (op == OP_AND)) {
-      if (!current_valid) {
-         evaluate_error = TRUE;
-         return;
-      }
-   }
-   /* evaluate */
-   if (op != OP_OPEN_PAREN) {
-      while ((stack_depth > 0) && 
-             ((precedence(op) <= precedence(operator_stack[stack_depth-1]) && (!is_unary(operator_stack[stack_depth-1]))) ||
-              (precedence(op) < precedence(operator_stack[stack_depth-1]) && (is_unary(operator_stack[stack_depth-1]))))) {
-         stack_depth--;
-         switch (operator_stack[stack_depth]) {
-            case OP_PLUS:
-               current_val = value_stack[stack_depth] + current_val;
-               break;
-            case OP_MINUS:
-               current_val = value_stack[stack_depth] - current_val;
-               break;
-            case OP_MUL:
-               current_val = value_stack[stack_depth] * current_val;
-               break;
-            case OP_DIV:
-               if (current_val != 0)
-                  current_val = value_stack[stack_depth] / current_val;
-               else
-                  current_val = 0;
-               break;
-            case OP_POWER:
-               current_val = pow(value_stack[stack_depth], current_val);
-               break;
-            case OP_NEGATE:
-               current_val = -current_val;
-               break;
-            case OP_SQRT:
-               if (current_val >= 0)
-                  current_val = sqrt(current_val);
-               else
-                  current_val = 0;
-               break;
-            case OP_SIN:
-               current_val = sin(DEG2RAD(current_val));
-               break;
-            case OP_COS:
-               current_val = cos(DEG2RAD(current_val));
-               break;
-            case OP_TAN:
-               current_val = tan(DEG2RAD(current_val));
-               break;
-            case OP_ASIN:
-               if ((current_val >= -1) && (current_val <= 1))
-                  current_val = RAD2DEG(asin(current_val));
-               else
-                  current_val = 0;
-               break;
-            case OP_ACOS:
-               if ((current_val >= -1) && (current_val <= 1))
-                  current_val = RAD2DEG(acos(current_val));
-               else
-                  current_val = 0;
-               break;
-            case OP_ATAN:
-               current_val = RAD2DEG(atan(current_val));
-               break;
-            case OP_LOG:
-               if (current_val > 0)
-                  current_val = log10(current_val);
-               else
-                  current_val = 0;
-               break;
-            case OP_LN:
-               if (current_val > 0)
-                  current_val = log(current_val);
-               else
-                  current_val = 0;
-               break;
-            case OP_CEIL:
-               current_val = ceil(current_val);
-               break;
-            case OP_FLOOR:
-               current_val = floor(current_val);
-               break;
-            case OP_ROUND:
-               if (current_val < 0)
-                  current_val = (int)(current_val - 0.5);
-               else
-                  current_val = (int)(current_val + 0.5);
-               break;
-            case OP_ABS:
-               current_val = fabs(current_val);
-               break;
-            case OP_MOD:
-               if (current_val >= 1)
-                  current_val = fmod(value_stack[stack_depth], current_val);
-               else
-                  current_val = 0;
-               break;
-            case OP_EQUALS:
-               current_val = (value_stack[stack_depth] == current_val);
-               break;
-            case OP_NOT_EQUALS:
-               current_val = (value_stack[stack_depth] != current_val);
-               break;
-            case OP_LESS:
-               current_val = (value_stack[stack_depth] < current_val);
-               break;
-            case OP_GREATER:
-               current_val = (value_stack[stack_depth] > current_val);
-               break;
-            case OP_LESS_EQUALS:
-               current_val = (value_stack[stack_depth] <= current_val);
-               break;
-            case OP_GREATER_EQUALS:
-               current_val = (value_stack[stack_depth] >= current_val);
-               break;
-            case OP_OR:
-               current_val = ((int)value_stack[stack_depth] || (int)current_val);
-               break;
-            case OP_AND:
-               current_val = ((int)value_stack[stack_depth] && (int)current_val);
-               break;
-            case OP_NOT:
-               current_val = !(int)current_val;
-               break;
-            case OP_OPEN_PAREN:
-               if (op == OP_CLOSE_PAREN)
-                  return;
-               break;
-         }
-      }
-   }
-   /* push onto the stack */
-   if (op != OP_CLOSE_PAREN) {
-      operator_stack[stack_depth] = op;
-      value_stack[stack_depth] = current_val;
-      stack_depth++;
-      current_val = 0;
-      current_valid = FALSE;
-   }
-   else {
-      if (stack_depth <= 0)
-         evaluate_error = TRUE;
-   }
-}
-/* evaluate:
- *  Top level evaluation function.
- */
-double evaluate(char *equation, int *error, double (*variable)(char *name))
-{
-   char buf[256];
-   double val;
-   int i;
-   stack_depth = 0;
-   current_val = 0;
-   current_valid = FALSE;
-   evaluate_error = FALSE;
-   while ((*equation) && (!evaluate_error)) {
-      /* skip whitespace */
-      while (isspace(*equation))
-         equation++;
-      switch (*equation) {
-         case '+':
-            /* addition */
-            add_operator(OP_PLUS);
-            equation++;
-            break;
-         case '-':
-            /* subtraction */
-            add_operator(OP_MINUS);
-            equation++;
-            break;
-         case '*':
-            /* multiplication */
-            add_operator(OP_MUL);
-            equation++;
-            break;
-         case '/':
-            /* division */
-            add_operator(OP_DIV);
-            equation++;
-            break;
-         case '^':
-            /* rasing to a power (_not_ XOR!) */
-            add_operator(OP_POWER);
-            equation++;
-            break;
-         case '%':
-            /* modulus */
-            add_operator(OP_MOD);
-            equation++;
-            break;
-         case '|':
-            /* logical or */
-            add_operator(OP_OR);
-            equation++;
-            break;
-         case '&':
-            /* logical and */
-            add_operator(OP_AND);
-            equation++;
-            break;
-         case '=':
-            /* equality test (requires dual ==) */
-            if (equation[1] == '=') {
-               add_operator(OP_EQUALS);
-               equation += 2;
-            }
-            else
-               evaluate_error = TRUE;
-            break;
-         case '!':
-            /* could be inequality test or logical not */
-            if (equation[1] == '=') {
-               add_operator(OP_NOT_EQUALS);
-               equation += 2;
-            }
-            else {
-               add_operator(OP_NOT);
-               equation++;
-            }
-            break;
-         case '<':
-            /* could be less than or less/equal test */
-            if (equation[1] == '=') {
-               add_operator(OP_LESS_EQUALS);
-               equation += 2;
-            }
-            else {
-               add_operator(OP_LESS);
-               equation++;
-            }
-            break;
-         case '>':
-            /* could be greater than or greater/equal test */
-            if (equation[1] == '=') {
-               add_operator(OP_GREATER_EQUALS);
-               equation += 2;
-            }
-            else {
-               add_operator(OP_GREATER);
-               equation++;
-            }
-            break;
-         case '(':
-            /* open bracket */
-            add_operator(OP_OPEN_PAREN);
-            equation++;
-            break;
-         case ')':
-            /* close bracket */
-            add_operator(OP_CLOSE_PAREN);
-            equation++;
-            break;
-         case '0':
-            /* special case for hex constants (0x prefix) */
-            if (equation[1] == 'x') {
-               equation += 2;
-               for (i=0; isxdigit(equation[i]); i++)
-                  buf[i] = equation[i];
-               buf[i] = 0;
-               equation += i;
-               val = strtol(buf, NULL, 16);
-               add_value(val);
-               break;
-            }
-            /* else fall through */
-         case '1':
-         case '2':
-         case '3':
-         case '4':
-         case '5':
-         case '6':
-         case '7':
-         case '8':
-         case '9':
-            /* floating point constant */
-            for (i=0; isdigit(equation[i]) || (equation[i] == '.'); i++)
-               buf[i] = equation[i];
-            buf[i] = 0;
-            equation += i;
-            val = atof(buf);
-            add_value(val);
-            break;
-         default:
-            /* this is a string, could be a variable or function */
-            for (i=0; (isalpha(equation[i])) || (equation[i] == '_'); i++)
-               buf[i] = tolower(equation[i]);
-            buf[i] = 0;
-            equation += i;
-            if (strcmp(buf, "pi") == 0) {
-               /* pi (built in constant) */
-               add_value(M_PI);
-            }
-            else if (strcmp(buf, "e") == 0) {
-               /* e (built in constant) */
-               add_value(M_E);
-            }
-            else if (strcmp(buf, "sqrt") == 0) {
-               /* square root function */
-               add_operator(OP_SQRT);
-            }
-            else if (strcmp(buf, "sin") == 0) {
-               /* sin function */
-               add_operator(OP_SIN);
-            }
-            else if (strcmp(buf, "cos") == 0) {
-               /* cos function */
-               add_operator(OP_COS);
-            }
-            else if (strcmp(buf, "tan") == 0) {
-               /* tan function */
-               add_operator(OP_TAN);
-            }
-            else if (strcmp(buf, "asin") == 0) {
-               /* inverse sin function */
-               add_operator(OP_ASIN);
-            }
-            else if (strcmp(buf, "acos") == 0) {
-               /* inverse cos function */
-               add_operator(OP_ACOS);
-            }
-            else if (strcmp(buf, "atan") == 0) {
-               /* inverse tan function */
-               add_operator(OP_ATAN);
-            }
-            else if (strcmp(buf, "log") == 0) {
-               /* base 10 logarithm function */
-               add_operator(OP_LOG);
-            }
-            else if (strcmp(buf, "ln") == 0) {
-               /* natural logarithm function */
-               add_operator(OP_LN);
-            }
-            else if (strcmp(buf, "ceil") == 0) {
-               /* round upwards function */
-               add_operator(OP_CEIL);
-            }
-            else if (strcmp(buf, "floor") == 0) {
-               /* round downwards function */
-               add_operator(OP_FLOOR);
-            }
-            else if (strcmp(buf, "round") == 0) {
-               /* round to nearest integer function */
-               add_operator(OP_ROUND);
-            }
-            else if (strcmp(buf, "abs") == 0) {
-               /* absolute value function */
-               add_operator(OP_ABS);
-            }
-            else if (strcmp(buf, "rand") == 0) {
-               /* random number between 0 and 1 */
-               add_value((rand()&32767)/32767.0);
-            }
-            else {
-               /* user-supplied callback for looking up variables */
-               if ((buf[0]) && (variable)) {
-                  add_value(variable(buf));
-               }
-               else {
-                  if (error)
-                     *error = TRUE;
-                  return 0;
-               }
-            }
-            break;
-      }
-   }
-   if ((evaluate_error) || (!current_valid)) {
-      if (error)
-         *error = TRUE;
-      return 0;
-   }
-   /* force a stack flush */
-   add_operator(OP_TERMINATOR);
-   if (stack_depth != 1) {
-      if (error)
-         *error = TRUE;
-      return 0;
-   }
-   if (error)
-      *error = FALSE;
-   return value_stack[0];
-}
diff --git a/parex/evaltest.c b/parex/evaltest.c
deleted file mode 100644
index 7e8641e..0000000
--- a/parex/evaltest.c
+++ /dev/null
@@ -1,50 +0,0 @@
-/* 
- *  EVALTEST.C - part of the EGG system.
- *
- *  Test program for the expression evaluator.
- *
- *  By Shawn Hargreaves.
- */
-#define USE_CONSOLE
-#include <stdlib.h>
-#include <stdio.h>
-#include <time.h>
-#include "egg.h"
-int main()
-{
-   char buf[256];
-   double result;
-   int error;
-   srand(time(NULL));
-   printf("\nTest program for the EGG expression evaluator module.\n\nEnter a formula, or a blank line to quit.\n\n\n");
-   for (;;) {
-      printf("> ");
-      fflush(stdout);
-      if (!fgets(buf, sizeof(buf), stdin) || (!buf[0]))
-         break;
-      result = evaluate(buf, &error, NULL);
-      if (error)
-         printf("\nError in expression!\n\n\n");
-      else 
-         printf("\nevaluate(\"%s\") = %f\n\n\n", buf, result);
-   }
-   printf("\n\n");
-   return 0;
-}
author	Mike Buland <eichlan@xagasoft.com>	2007-04-03 03:43:22 +0000
committer	Mike Buland <eichlan@xagasoft.com>	2007-04-03 03:43:22 +0000
commit	c613ec4abb31983babb6c87e637624a13ee60bd6 (patch)
tree	be8cb278c3bace4ddc62bafe51cb7a113921ce05
parent	a8e7b44c9981dd5d65b0b97f1d2ee34927a0f2a5 (diff)
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diff --git a/parex/egg.h b/parex/egg.h deleted file mode 100644 index 6830edd..0000000 --- a/parex/egg.h +++ /dev/null
@@ -1,127 +0,0 @@
1	/*
2	* EGG.H - part of the EGG system.
3	*
4	* Global definitions and function prototypes.
5	*
6	* By Shawn Hargreaves.
7	*/
8
9
10	#ifndef __EGG_H__
11	#define __EGG_H__
12
13
14	#ifndef TRUE
15	#define TRUE -1
16	#define FALSE 0
17	#endif
18
19	#ifndef MIN
20	#define MIN(x,y) (((x) < (y)) ? (x) : (y))
21	#define MAX(x,y) (((x) > (y)) ? (x) : (y))
22	#define MID(x,y,z) MAX((x), MIN((y), (z)))
23	#endif
24
25	#ifndef ABS
26	#define ABS(x) (((x) >= 0) ? (x) : (-(x)))
27	#endif
28
29	#ifndef ALLEGRO_H
30	struct BITMAP;
31	#endif
32
33
34
35	/* possible particle commands (ie. language keywords) */
36	#define EGG_COMMAND_INIT 1
37	#define EGG_COMMAND_SET 2
38	#define EGG_COMMAND_IF 3
39	#define EGG_COMMAND_LAY 4
40	#define EGG_COMMAND_DIE 5
41
42
43
44	/* each particle is controlled by a command list */
45	typedef struct EGG_COMMAND
46	{
47	int type; /* command type */
48	int line; /* source line number */
49	char var; / variable to be set */
50	char exp; / arithmetic expression */
51	struct EGG_COMMAND cmd; / nested, child command list (if) */
52	struct EGG_COMMAND cmd2; / more child commands (else) */
53	struct EGG_COMMAND next; / linked list pointer */
54	} EGG_COMMAND;
55
56
57
58	/* each type of particle is defined by one of these structures */
59	typedef struct EGG_TYPE
60	{
61	char name; / type name */
62	EGG_COMMAND cmd; / command list */
63	struct EGG_TYPE next; / linked list pointer */
64	} EGG_TYPE;
65
66
67
68	/* particles store their state variables in these structures */
69	typedef struct EGG_VARIABLE
70	{
71	char name; / variable name */
72	double val; /* current value */
73	struct EGG_VARIABLE next; / linked list pointer */
74	} EGG_VARIABLE;
75
76
77
78	/* a specific particle instance */
79	typedef struct EGG_PARTICLE
80	{
81	int num; /* unique ID number */
82	EGG_TYPE type; / type information */
83	EGG_VARIABLE var; / list of variables */
84	struct EGG_PARTICLE next; / linked list pointer */
85	} EGG_PARTICLE;
86
87
88
89	/* everything you need to know about an EGG particle system */
90	typedef struct EGG
91	{
92	int frame; /* animation frame number */
93	int part_count; /* number of active particles */
94	int part_num; /* particle ID counter */
95	EGG_PARTICLE part; / list of particle instances */
96	EGG_TYPE type; / list of particle types */
97	EGG_VARIABLE var; / list of global variables */
98	} EGG;
99
100
101
102	/* script loading functions */
103	EGG load_egg(char filename, char *error);
104	EGG use_egg(void data, int length, char *error);
105
106	/* script unloading function */
107	void destroy_egg(EGG *egg);
108
109	/* script interpreter */
110	int update_egg(EGG egg, char error);
111
112	/* renders the current animation state into an Allegro bitmap */
113	void lay_egg(EGG egg, struct BITMAP bmp);
114
115	/* internal utility functions */
116	double evaluate(char equation, int error, double (variable)(char name));
117
118	int process_egg_cmd(EGG egg, EGG_PARTICLE part, EGG_PARTICLE other, EGG_COMMAND cmd, int init, int set, char *error);
119	void destroy_egg_cmd(EGG_COMMAND *cmd);
120
121	double get_egg_variable(EGG_PARTICLE part, EGG_PARTICLE other, EGG egg, char name);
122	void set_egg_variable(EGG_PARTICLE part, EGG_PARTICLE other, EGG egg, char name, double value);
123
124
125
126	#endif /* __EGG_H__ */
127


diff --git a/parex/eval.c b/parex/eval.c deleted file mode 100644 index 7eb9607..0000000 --- a/parex/eval.c +++ /dev/null
@@ -1,651 +0,0 @@
1	/*
2	* EVAL.C - part of the EGG system.
3	*
4	* Helper routine for evaluating arithmetic expressions.
5	*
6	* By Shawn Hargreaves.
7	*/
8
9
10	#include <stdlib.h>
11	#include <string.h>
12	#include <stdio.h>
13	#include <ctype.h>
14	#include <math.h>
15
16	#ifndef M_PI
17	#define M_PI 3.14159265358979323846
18	#endif
19
20	#ifndef M_E
21	#define M_E 2.7182818284590452354
22	#endif
23
24	#include "egg.h"
25
26
27
28	/* convert radians <-> degrees */
29	#define DEG2RAD(x) ((x)*M_PI/180.0)
30	#define RAD2DEG(x) ((x)*180.0/M_PI)
31
32
33
34	/* internal state information */
35	static int evaluate_error;
36
37	static char operator_stack[256];
38	static double value_stack[256];
39
40	static int stack_depth;
41
42	static double current_val;
43
44	static int current_valid;
45
46
47
48	/* operator tokens */
49	#define OP_OPEN_PAREN '('
50	#define OP_CLOSE_PAREN ')'
51	#define OP_PLUS '+'
52	#define OP_MINUS '-'
53	#define OP_MUL '*'
54	#define OP_DIV '/'
55	#define OP_POWER '^'
56	#define OP_NEGATE '~'
57	#define OP_SQRT 'q'
58	#define OP_SIN 's'
59	#define OP_COS 'c'
60	#define OP_TAN 't'
61	#define OP_ASIN 'S'
62	#define OP_ACOS 'C'
63	#define OP_ATAN 'T'
64	#define OP_LOG 'l'
65	#define OP_LN 'L'
66	#define OP_CEIL 'e'
67	#define OP_FLOOR 'f'
68	#define OP_ROUND 'r'
69	#define OP_ABS 'a'
70	#define OP_MOD '%'
71	#define OP_EQUALS '='
72	#define OP_NOT_EQUALS '#'
73	#define OP_LESS '<'
74	#define OP_GREATER '>'
75	#define OP_LESS_EQUALS '{'
76	#define OP_GREATER_EQUALS '}'
77	#define OP_OR '\|'
78	#define OP_AND '&'
79	#define OP_NOT '!'
80	#define OP_TERMINATOR ' '
81
82
83
84	/* precedence:
85	* Returns the precedence of the specified operator.
86	*/
87	static int precedence(char op)
88	{
89	switch (op) {
90
91	case OP_OPEN_PAREN:
92	case OP_CLOSE_PAREN:
93	return 1;
94
95	case OP_TERMINATOR:
96	return 2;
97
98	case OP_OR:
99	case OP_AND:
100	return 3;
101
102	case OP_EQUALS:
103	case OP_NOT_EQUALS:
104	case OP_LESS:
105	case OP_GREATER:
106	case OP_LESS_EQUALS:
107	case OP_GREATER_EQUALS:
108	return 4;
109
110	case OP_PLUS:
111	case OP_MINUS:
112	return 5;
113
114	case OP_MUL:
115	case OP_DIV:
116	case OP_MOD:
117	return 6;
118
119	case OP_POWER:
120	return 7;
121
122	case OP_NEGATE:
123	case OP_NOT:
124	case OP_SQRT:
125	case OP_SIN:
126	case OP_COS:
127	case OP_TAN:
128	case OP_ASIN:
129	case OP_ACOS:
130	case OP_ATAN:
131	case OP_LOG:
132	case OP_LN:
133	case OP_CEIL:
134	case OP_FLOOR:
135	case OP_ROUND:
136	case OP_ABS:
137	return 8;
138
139	default:
140	return -1;
141	}
142	}
143
144
145
146	/* is_unary:
147	* Checks whether an operator is unary.
148	*/
149	static int is_unary(char op)
150	{
151	if ((op == OP_NEGATE) \|\| (op == OP_SQRT) \|\| (op == OP_SIN) \|\|
152	(op == OP_COS) \|\| (op == OP_TAN) \|\| (op == OP_ASIN) \|\|
153	(op == OP_ACOS) \|\| (op == OP_ATAN) \|\| (op == OP_LOG) \|\|
154	(op == OP_LN) \|\| (op == OP_CEIL) \|\| (op == OP_FLOOR) \|\|
155	(op == OP_ROUND) \|\| (op == OP_ABS) \|\| (op == OP_NOT))
156	return TRUE;
157
158	return FALSE;
159	}
160
161
162
163	/* add_value:
164	* Processes a new numeric value from the input string.
165	*/
166	static void add_value(double val)
167	{
168	if (current_valid) {
169	evaluate_error = TRUE;
170	return;
171	}
172
173	current_val = val;
174	current_valid = TRUE;
175	}
176
177
178
179	/* add_operator:
180	* Processes a new operator from the input string.
181	*/
182	static void add_operator(char op)
183	{
184	/* bodge for unary negation */
185	if ((op == OP_MINUS) && (!current_valid))
186	op = OP_NEGATE;
187
188	/* check validity */
189	if ((op == OP_PLUS) \|\| (op == OP_MINUS) \|\|
190	(op == OP_MUL) \|\| (op == OP_DIV) \|\|
191	(op == OP_POWER) \|\| (op == OP_MOD) \|\|
192	(op == OP_EQUALS) \|\| (op == OP_NOT_EQUALS) \|\|
193	(op == OP_LESS) \|\| (op == OP_GREATER) \|\|
194	(op == OP_LESS_EQUALS) \|\| (op == OP_GREATER_EQUALS) \|\|
195	(op == OP_OR) \|\| (op == OP_AND)) {
196
197	if (!current_valid) {
198	evaluate_error = TRUE;
199	return;
200	}
201	}
202
203	/* evaluate */
204	if (op != OP_OPEN_PAREN) {
205	while ((stack_depth > 0) &&
206	((precedence(op) <= precedence(operator_stack[stack_depth-1]) && (!is_unary(operator_stack[stack_depth-1]))) \|\|
207	(precedence(op) < precedence(operator_stack[stack_depth-1]) && (is_unary(operator_stack[stack_depth-1]))))) {
208
209	stack_depth--;
210
211	switch (operator_stack[stack_depth]) {
212
213	case OP_PLUS:
214	current_val = value_stack[stack_depth] + current_val;
215	break;
216
217	case OP_MINUS:
218	current_val = value_stack[stack_depth] - current_val;
219	break;
220
221	case OP_MUL:
222	current_val = value_stack[stack_depth] * current_val;
223	break;
224
225	case OP_DIV:
226	if (current_val != 0)
227	current_val = value_stack[stack_depth] / current_val;
228	else
229	current_val = 0;
230	break;
231
232	case OP_POWER:
233	current_val = pow(value_stack[stack_depth], current_val);
234	break;
235
236	case OP_NEGATE:
237	current_val = -current_val;
238	break;
239
240	case OP_SQRT:
241	if (current_val >= 0)
242	current_val = sqrt(current_val);
243	else
244	current_val = 0;
245	break;
246
247	case OP_SIN:
248	current_val = sin(DEG2RAD(current_val));
249	break;
250
251	case OP_COS:
252	current_val = cos(DEG2RAD(current_val));
253	break;
254
255	case OP_TAN:
256	current_val = tan(DEG2RAD(current_val));
257	break;
258
259	case OP_ASIN:
260	if ((current_val >= -1) && (current_val <= 1))
261	current_val = RAD2DEG(asin(current_val));
262	else
263	current_val = 0;
264	break;
265
266	case OP_ACOS:
267	if ((current_val >= -1) && (current_val <= 1))
268	current_val = RAD2DEG(acos(current_val));
269	else
270	current_val = 0;
271	break;
272
273	case OP_ATAN:
274	current_val = RAD2DEG(atan(current_val));
275	break;
276
277	case OP_LOG:
278	if (current_val > 0)
279	current_val = log10(current_val);
280	else
281	current_val = 0;
282	break;
283
284	case OP_LN:
285	if (current_val > 0)
286	current_val = log(current_val);
287	else
288	current_val = 0;
289	break;
290
291	case OP_CEIL:
292	current_val = ceil(current_val);
293	break;
294
295	case OP_FLOOR:
296	current_val = floor(current_val);
297	break;
298
299	case OP_ROUND:
300	if (current_val < 0)
301	current_val = (int)(current_val - 0.5);
302	else
303	current_val = (int)(current_val + 0.5);
304	break;
305
306	case OP_ABS:
307	current_val = fabs(current_val);
308	break;
309
310	case OP_MOD:
311	if (current_val >= 1)
312	current_val = fmod(value_stack[stack_depth], current_val);
313	else
314	current_val = 0;
315	break;
316
317	case OP_EQUALS:
318	current_val = (value_stack[stack_depth] == current_val);
319	break;
320
321	case OP_NOT_EQUALS:
322	current_val = (value_stack[stack_depth] != current_val);
323	break;
324
325	case OP_LESS:
326	current_val = (value_stack[stack_depth] < current_val);
327	break;
328
329	case OP_GREATER:
330	current_val = (value_stack[stack_depth] > current_val);
331	break;
332
333	case OP_LESS_EQUALS:
334	current_val = (value_stack[stack_depth] <= current_val);
335	break;
336
337	case OP_GREATER_EQUALS:
338	current_val = (value_stack[stack_depth] >= current_val);
339	break;
340
341	case OP_OR:
342	current_val = ((int)value_stack[stack_depth] \|\| (int)current_val);
343	break;
344
345	case OP_AND:
346	current_val = ((int)value_stack[stack_depth] && (int)current_val);
347	break;
348
349	case OP_NOT:
350	current_val = !(int)current_val;
351	break;
352
353	case OP_OPEN_PAREN:
354	if (op == OP_CLOSE_PAREN)
355	return;
356	break;
357	}
358	}
359	}
360
361	/* push onto the stack */
362	if (op != OP_CLOSE_PAREN) {
363	operator_stack[stack_depth] = op;
364	value_stack[stack_depth] = current_val;
365	stack_depth++;
366	current_val = 0;
367	current_valid = FALSE;
368	}
369	else {
370	if (stack_depth <= 0)
371	evaluate_error = TRUE;
372	}
373	}
374
375
376
377	/* evaluate:
378	* Top level evaluation function.
379	*/
380	double evaluate(char equation, int error, double (variable)(char name))
381	{
382	char buf[256];
383	double val;
384	int i;
385
386	stack_depth = 0;
387	current_val = 0;
388	current_valid = FALSE;
389	evaluate_error = FALSE;
390
391	while ((*equation) && (!evaluate_error)) {
392	/* skip whitespace */
393	while (isspace(*equation))
394	equation++;
395
396	switch (*equation) {
397
398	case '+':
399	/* addition */
400	add_operator(OP_PLUS);
401	equation++;
402	break;
403
404	case '-':
405	/* subtraction */
406	add_operator(OP_MINUS);
407	equation++;
408	break;
409
410	case '*':
411	/* multiplication */
412	add_operator(OP_MUL);
413	equation++;
414	break;
415
416	case '/':
417	/* division */
418	add_operator(OP_DIV);
419	equation++;
420	break;
421
422	case '^':
423	/* rasing to a power (_not_ XOR!) */
424	add_operator(OP_POWER);
425	equation++;
426	break;
427
428	case '%':
429	/* modulus */
430	add_operator(OP_MOD);
431	equation++;
432	break;
433
434	case '\|':
435	/* logical or */
436	add_operator(OP_OR);
437	equation++;
438	break;
439
440	case '&':
441	/* logical and */
442	add_operator(OP_AND);
443	equation++;
444	break;
445
446	case '=':
447	/* equality test (requires dual ==) */
448	if (equation[1] == '=') {
449	add_operator(OP_EQUALS);
450	equation += 2;
451	}
452	else
453	evaluate_error = TRUE;
454	break;
455
456	case '!':
457	/* could be inequality test or logical not */
458	if (equation[1] == '=') {
459	add_operator(OP_NOT_EQUALS);
460	equation += 2;
461	}
462	else {
463	add_operator(OP_NOT);
464	equation++;
465	}
466	break;
467
468	case '<':
469	/* could be less than or less/equal test */
470	if (equation[1] == '=') {
471	add_operator(OP_LESS_EQUALS);
472	equation += 2;
473	}
474	else {
475	add_operator(OP_LESS);
476	equation++;
477	}
478	break;
479
480	case '>':
481	/* could be greater than or greater/equal test */
482	if (equation[1] == '=') {
483	add_operator(OP_GREATER_EQUALS);
484	equation += 2;
485	}
486	else {
487	add_operator(OP_GREATER);
488	equation++;
489	}
490	break;
491
492	case '(':
493	/* open bracket */
494	add_operator(OP_OPEN_PAREN);
495	equation++;
496	break;
497
498	case ')':
499	/* close bracket */
500	add_operator(OP_CLOSE_PAREN);
501	equation++;
502	break;
503
504	case '0':
505	/* special case for hex constants (0x prefix) */
506	if (equation[1] == 'x') {
507	equation += 2;
508
509	for (i=0; isxdigit(equation[i]); i++)
510	buf[i] = equation[i];
511
512	buf[i] = 0;
513	equation += i;
514
515	val = strtol(buf, NULL, 16);
516	add_value(val);
517	break;
518	}
519	/* else fall through */
520
521	case '1':
522	case '2':
523	case '3':
524	case '4':
525	case '5':
526	case '6':
527	case '7':
528	case '8':
529	case '9':
530	/* floating point constant */
531	for (i=0; isdigit(equation[i]) \|\| (equation[i] == '.'); i++)
532	buf[i] = equation[i];
533
534	buf[i] = 0;
535	equation += i;
536
537	val = atof(buf);
538	add_value(val);
539	break;
540
541	default:
542	/* this is a string, could be a variable or function */
543	for (i=0; (isalpha(equation[i])) \|\| (equation[i] == '_'); i++)
544	buf[i] = tolower(equation[i]);
545
546	buf[i] = 0;
547	equation += i;
548
549	if (strcmp(buf, "pi") == 0) {
550	/* pi (built in constant) */
551	add_value(M_PI);
552	}
553	else if (strcmp(buf, "e") == 0) {
554	/* e (built in constant) */
555	add_value(M_E);
556	}
557	else if (strcmp(buf, "sqrt") == 0) {
558	/* square root function */
559	add_operator(OP_SQRT);
560	}
561	else if (strcmp(buf, "sin") == 0) {
562	/* sin function */
563	add_operator(OP_SIN);
564	}
565	else if (strcmp(buf, "cos") == 0) {
566	/* cos function */
567	add_operator(OP_COS);
568	}
569	else if (strcmp(buf, "tan") == 0) {
570	/* tan function */
571	add_operator(OP_TAN);
572	}
573	else if (strcmp(buf, "asin") == 0) {
574	/* inverse sin function */
575	add_operator(OP_ASIN);
576	}
577	else if (strcmp(buf, "acos") == 0) {
578	/* inverse cos function */
579	add_operator(OP_ACOS);
580	}
581	else if (strcmp(buf, "atan") == 0) {
582	/* inverse tan function */
583	add_operator(OP_ATAN);
584	}
585	else if (strcmp(buf, "log") == 0) {
586	/* base 10 logarithm function */
587	add_operator(OP_LOG);
588	}
589	else if (strcmp(buf, "ln") == 0) {
590	/* natural logarithm function */
591	add_operator(OP_LN);
592	}
593	else if (strcmp(buf, "ceil") == 0) {
594	/* round upwards function */
595	add_operator(OP_CEIL);
596	}
597	else if (strcmp(buf, "floor") == 0) {
598	/* round downwards function */
599	add_operator(OP_FLOOR);
600	}
601	else if (strcmp(buf, "round") == 0) {
602	/* round to nearest integer function */
603	add_operator(OP_ROUND);
604	}
605	else if (strcmp(buf, "abs") == 0) {
606	/* absolute value function */
607	add_operator(OP_ABS);
608	}
609	else if (strcmp(buf, "rand") == 0) {
610	/* random number between 0 and 1 */
611	add_value((rand()&32767)/32767.0);
612	}
613	else {
614	/* user-supplied callback for looking up variables */
615	if ((buf[0]) && (variable)) {
616	add_value(variable(buf));
617	}
618	else {
619	if (error)
620	*error = TRUE;
621
622	return 0;
623	}
624	}
625	break;
626	}
627	}
628
629	if ((evaluate_error) \|\| (!current_valid)) {
630	if (error)
631	*error = TRUE;
632
633	return 0;
634	}
635
636	/* force a stack flush */
637	add_operator(OP_TERMINATOR);
638
639	if (stack_depth != 1) {
640	if (error)
641	*error = TRUE;
642
643	return 0;
644	}
645
646	if (error)
647	*error = FALSE;
648
649	return value_stack[0];
650	}
651


diff --git a/parex/evaltest.c b/parex/evaltest.c deleted file mode 100644 index 7e8641e..0000000 --- a/parex/evaltest.c +++ /dev/null
@@ -1,50 +0,0 @@
1	/*
2	* EVALTEST.C - part of the EGG system.
3	*
4	* Test program for the expression evaluator.
5	*
6	* By Shawn Hargreaves.
7	*/
8
9
10	#define USE_CONSOLE
11
12
13	#include <stdlib.h>
14	#include <stdio.h>
15	#include <time.h>
16
17	#include "egg.h"
18
19
20
21	int main()
22	{
23	char buf[256];
24	double result;
25	int error;
26
27	srand(time(NULL));
28
29	printf("\nTest program for the EGG expression evaluator module.\n\nEnter a formula, or a blank line to quit.\n\n\n");
30
31	for (;;) {
32	printf("> ");
33	fflush(stdout);
34
35	if (!fgets(buf, sizeof(buf), stdin) \|\| (!buf[0]))
36	break;
37
38	result = evaluate(buf, &error, NULL);
39
40	if (error)
41	printf("\nError in expression!\n\n\n");
42	else
43	printf("\nevaluate(\"%s\") = %f\n\n\n", buf, result);
44	}
45
46	printf("\n\n");
47
48	return 0;
49	}
50