parser.c
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上传日期:2020-07-06
资源大小:29949k
文件大小:63k
源码类别:
midi
开发平台:
Unix_Linux
- /*****************************************************************************
- * parser.c:
- *****************************************************************************
- * Copyright (C) 2004 the VideoLAN team
- * $Id: 63d54976dba740558f5b8264806589aa5ee930f4 $
- *
- * Authors: Cyril Deguet <asmax@videolan.org>
- * code from projectM http://xmms-projectm.sourceforge.net
- *
- * This program is free software; you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation; either version 2 of the License, or
- * (at your option) any later version.
- *
- * This program is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program; if not, write to the Free Software
- * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston MA 02110-1301, USA.
- *****************************************************************************/
- /* parser.c */
- #include <stdlib.h>
- #include <stdio.h>
- #include <string.h>
- #include "common.h"
- #include "fatal.h"
- #include "splaytree_types.h"
- #include "splaytree.h"
- #include "tree_types.h"
- #include "expr_types.h"
- #include "eval.h"
- #include "param_types.h"
- #include "param.h"
- #include "func_types.h"
- #include "func.h"
- #include "preset_types.h"
- #include "builtin_funcs.h"
- #include "per_pixel_eqn_types.h"
- #include "per_pixel_eqn.h"
- #include "init_cond_types.h"
- #include "init_cond.h"
- #include "per_frame_eqn_types.h"
- #include "per_frame_eqn.h"
- #include "parser.h"
- #include "engine_vars.h"
- #include "custom_wave_types.h"
- #include "custom_wave.h"
- #include "custom_shape_types.h"
- #include "custom_shape.h"
- /* Strings that prefix (and denote the type of) equations */
- #define PER_FRAME_STRING "per_frame_"
- #define PER_FRAME_STRING_LENGTH 10
- #define PER_PIXEL_STRING "per_pixel_"
- #define PER_PIXEL_STRING_LENGTH 10
- #define PER_FRAME_INIT_STRING "per_frame_init_"
- #define PER_FRAME_INIT_STRING_LENGTH 15
- #define WAVECODE_STRING "wavecode_"
- #define WAVECODE_STRING_LENGTH 9
- #define WAVE_STRING "wave_"
- #define WAVE_STRING_LENGTH 5
- #define PER_POINT_STRING "per_point"
- #define PER_POINT_STRING_LENGTH 9
- #define PER_FRAME_STRING_NO_UNDERSCORE "per_frame"
- #define PER_FRAME_STRING_NO_UNDERSCORE_LENGTH 9
- #define SHAPECODE_STRING "shapecode_"
- #define SHAPECODE_STRING_LENGTH 10
- #define SHAPE_STRING "shape_"
- #define SHAPE_STRING_LENGTH 6
- #define SHAPE_INIT_STRING "init"
- #define SHAPE_INIT_STRING_LENGTH 4
- #define WAVE_INIT_STRING "init"
- #define WAVE_INIT_STRING_LENGTH 4
- /* Stores a line of a file as its being parsed */
- char string_line_buffer[STRING_LINE_SIZE];
- /* The current position of the string line buffer (see above) */
- int string_line_buffer_index = 0;
- /* All infix operators (except '=') are prototyped here */
- extern infix_op_t * infix_add, * infix_minus, * infix_div, * infix_mult,
- * infix_or, * infix_and, * infix_mod, * infix_positive, * infix_negative;
- /* If the parser reads a line with a custom wave, this pointer is set to
- the custom wave of concern */
- custom_wave_t * current_wave = NULL;
- custom_shape_t * current_shape = NULL;
- /* Counts the number of lines parsed */
- unsigned int line_count = 1;
- int per_frame_eqn_count = 0;
- int per_frame_init_eqn_count = 0;
- typedef enum {
- NORMAL_LINE_MODE,
- PER_FRAME_LINE_MODE,
- PER_PIXEL_LINE_MODE,
- INIT_COND_LINE_MODE,
- CUSTOM_WAVE_PER_POINT_LINE_MODE,
- CUSTOM_WAVE_PER_FRAME_LINE_MODE,
- CUSTOM_WAVE_WAVECODE_LINE_MODE,
- CUSTOM_SHAPE_SHAPECODE_LINE_MODE,
- } line_mode_t;
- line_mode_t line_mode = NORMAL_LINE_MODE;
- /* Token enumeration type */
- typedef enum {
- tEOL, /* end of a line, usually a '/n' or '/r' */
- tEOF, /* end of file */
- tLPr, /* ( */
- tRPr, /* ) */
- tLBr, /* [ */
- tRBr, /* ] */
- tEq, /* = */
- tPlus, /* + */
- tMinus, /* - */
- tMult, /* * */
- tMod, /* % */
- tDiv, /* / */
- tOr, /* | */
- tAnd, /* & */
- tComma, /* , */
- tPositive, /* + as a prefix operator */
- tNegative, /* - as a prefix operator */
- tSemiColon, /* ; */
- tStringTooLong, /* special token to indicate an invalid string length */
- tStringBufferFilled /* the string buffer for this line is maxed out */
- } token_t;
- int get_string_prefix_len(char * string);
- tree_expr_t * insert_gen_expr(gen_expr_t * gen_expr, tree_expr_t ** root);
- tree_expr_t * insert_infix_op(infix_op_t * infix_op, tree_expr_t ** root);
- token_t parseToken(FILE * fs, char * string);
- gen_expr_t ** parse_prefix_args(FILE * fs, int num_args, struct PRESET_T * preset);
- gen_expr_t * parse_infix_op(FILE * fs, token_t token, tree_expr_t * tree_expr, struct PRESET_T * preset);
- gen_expr_t * parse_sign_arg(FILE * fs);
- int parse_float(FILE * fs, double * float_ptr);
- int parse_int(FILE * fs, int * int_ptr);
- int insert_gen_rec(gen_expr_t * gen_expr, tree_expr_t * root);
- int insert_infix_rec(infix_op_t * infix_op, tree_expr_t * root);
- gen_expr_t * parse_gen_expr(FILE * fs, tree_expr_t * tree_expr, struct PRESET_T * preset);
- per_frame_eqn_t * parse_implicit_per_frame_eqn(FILE * fs, char * param_string, int index, struct PRESET_T * preset);
- init_cond_t * parse_per_frame_init_eqn(FILE * fs, struct PRESET_T * preset, splaytree_t * database);
- int parse_wavecode_prefix(char * token, int * id, char ** var_string);
- int parse_wavecode(char * token, FILE * fs, preset_t * preset);
- int parse_wave_prefix(char * token, int * id, char ** eqn_string);
- int parse_shapecode(char * eqn_string, FILE * fs, preset_t * preset);
- int parse_shapecode_prefix(char * token, int * id, char ** var_string);
- int parse_wave(char * eqn_string, FILE * fs, preset_t * preset);
- int parse_shape(char * eqn_string, FILE * fs, preset_t * preset);
- int parse_shape_prefix(char * token, int * id, char ** eqn_string);
- int update_string_buffer(char * buffer, int * index);
- int string_to_float(char * string, double * float_ptr);
- /* Grabs the next token from the file. The second argument points
- to the raw string */
- token_t parseToken(FILE * fs, char * string) {
- char c;
- int i;
- if (string != NULL)
- memset(string, 0, MAX_TOKEN_SIZE);
- /* Loop until a delimiter is found, or the maximum string size is found */
- for (i = 0; i < MAX_TOKEN_SIZE;i++) {
- c = fgetc(fs);
- /* If the string line buffer is full, quit */
- if (string_line_buffer_index == (STRING_LINE_SIZE - 1))
- return tStringBufferFilled;
- /* Otherwise add this character to the string line buffer */
- string_line_buffer[string_line_buffer_index++] = c;
- /* Now interpret the character */
- switch (c) {
- case '+':
- return tPlus;
- case '-':
- return tMinus;
- case '%':
- return tMod;
- case '/':
- /* check for line comment here */
- if ((c = fgetc(fs)) == '/') {
- while(1) {
- c = fgetc(fs);
- if (c == EOF) {
- line_mode = NORMAL_LINE_MODE;
- return tEOF;
- }
- if (c == 'n') {
- line_mode = NORMAL_LINE_MODE;
- return tEOL;
- }
- }
- }
- /* Otherwise, just a regular division operator */
- ungetc(c, fs);
- return tDiv;
- case '*':
- return tMult;
- case '|':
- return tOr;
- case '&':
- return tAnd;
- case '(':
- return tLPr;
- case ')':
- return tRPr;
- case '[':
- return tLBr;
- case ']':
- return tRBr;
- case '=':
- return tEq;
- // case 'r':
- //break;
- case 'n':
- line_count++;
- line_mode = NORMAL_LINE_MODE;
- return tEOL;
- case ',':
- return tComma;
- case ';':
- return tSemiColon;
- case ' ': /* space, skip the character */
- i--;
- break;
- case EOF:
- line_count = 1;
- line_mode = NORMAL_LINE_MODE;
- return tEOF;
- default:
- if (string != NULL)
- string[i] = c;
- }
- }
- /* String reached maximum length, return special token error */
- return tStringTooLong;
- }
- /* Parse input in the form of "exp, exp, exp, ...)"
- Returns a general expression list */
- gen_expr_t ** parse_prefix_args(FILE * fs, int num_args, struct PRESET_T * preset) {
- int i, j;
- gen_expr_t ** expr_list; /* List of arguments to function */
- gen_expr_t * gen_expr;
- /* Malloc the expression list */
- expr_list = (gen_expr_t**)malloc(sizeof(gen_expr_t*)*num_args);
- /* Malloc failed */
- if (expr_list == NULL)
- return NULL;
- i = 0;
- while (i < num_args) {
- //if (PARSE_DEBUG) printf("parse_prefix_args: parsing argument %d...n", i+1);
- /* Parse the ith expression in the list */
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_prefix_args: failed to get parameter # %d for function (LINE %d)n", i+1, line_count);
- for (j = 0; j < i; j++)
- free_gen_expr(expr_list[j]);
- free(expr_list);
- return NULL;
- }
- /* Assign entry in expression list */
- expr_list[i++] = gen_expr;
- }
- //if (PARSE_DEBUG) printf("parse_prefix_args: finished parsing %d arguments (LINE %d)n", num_args, line_count);
- /* Finally, return the resulting expression list */
- return expr_list;
- }
- /* Parses a comment at the top of the file. Stops when left bracket is found */
- int parse_top_comment(FILE * fs) {
- char string[MAX_TOKEN_SIZE];
- token_t token;
- /* Process tokens until left bracket is found */
- while ((token = parseToken(fs, string)) != tLBr) {
- if (token == tEOF)
- return PARSE_ERROR;
- }
- /* Done, return success */
- return SUCCESS;
- }
- /* Right Bracket is parsed by this function.
- puts a new string into name */
- int parse_preset_name(FILE * fs, char * name) {
- token_t token;
- if (name == NULL)
- return FAILURE;
- if ((token = parseToken(fs, name)) != tRBr)
- return PARSE_ERROR;
- //if (PARSE_DEBUG) printf("parse_preset_name: parsed preset (name = "%s")n", name);
- return SUCCESS;
- }
- /* Parses per pixel equations */
- int parse_per_pixel_eqn(FILE * fs, preset_t * preset) {
- char string[MAX_TOKEN_SIZE];
- gen_expr_t * gen_expr;
- if (PARSE_DEBUG) printf("parse_per_pixel: per_pixel equation parsing start...(LINE %d)n", line_count);
- if (parseToken(fs, string) != tEq) { /* parse per pixel operator name */
- if (PARSE_DEBUG) printf("parse_per_pixel: equal operator expected after per pixel operator "%s", but not found (LINE %d)n",
- string, line_count);
- return PARSE_ERROR;
- }
- /* Parse right side of equation as an expression */
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- if (PARSE_DEBUG) printf("parse_per_pixel: equation evaluated to null? (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Add the per pixel equation */
- if (add_per_pixel_eqn(string, gen_expr, preset) < 0) {
- free_gen_expr(gen_expr);
- return PARSE_ERROR;
- }
- return SUCCESS;
- }
- /* Parses an equation line, this function is way too big, should add some helper functions */
- int parse_line(FILE * fs, struct PRESET_T * preset) {
- char eqn_string[MAX_TOKEN_SIZE];
- token_t token;
- init_cond_t * init_cond;
- per_frame_eqn_t * per_frame_eqn;
- /* Clear the string line buffer */
- memset(string_line_buffer, 0, STRING_LINE_SIZE);
- string_line_buffer_index = 0;
- switch (token = parseToken(fs, eqn_string)) {
- /* Invalid Cases */
- case tRBr:
- case tLPr:
- case tRPr:
- case tComma:
- case tLBr:
- case tPlus:
- case tMinus:
- case tMod:
- case tMult:
- case tOr:
- case tAnd:
- case tDiv:
- // if (PARSE_DEBUG) printf("parse_line: invalid token found at start of line (LINE %d)n", line_count);
- /* Invalid token found, return a parse error */
- return PARSE_ERROR;
- case tEOL: /* Empty line */
- line_mode = NORMAL_LINE_MODE;
- return SUCCESS;
- case tEOF: /* End of File */
- line_mode = NORMAL_LINE_MODE;
- line_count = 1;
- return EOF;
- case tSemiColon: /* Indicates end of expression */
- return SUCCESS;
- /* Valid Case, either an initial condition or equation should follow */
- case tEq:
- /* CASE: PER FRAME INIT EQUATION */
- if (!strncmp(eqn_string, PER_FRAME_INIT_STRING, PER_FRAME_INIT_STRING_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_line: per frame init equation found...(LINE %d)n", line_count);
- /* Set the line mode to normal */
- line_mode = NORMAL_LINE_MODE;
- /* Parse the per frame equation */
- if ((init_cond = parse_per_frame_init_eqn(fs, preset, NULL)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_line: per frame init equation parsing failed (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Insert the equation in the per frame equation tree */
- if (splay_insert(init_cond, init_cond->param->name, preset->per_frame_init_eqn_tree) < 0) {
- //if (PARSE_DEBUG) printf("parse_line: failed to add a perframe equation (ERROR)n");
- free_init_cond(init_cond); /* will free the gen expr too */
- return ERROR;
- }
- if (update_string_buffer(preset->per_frame_init_eqn_string_buffer,
- &preset->per_frame_init_eqn_string_index) < 0)
- { return FAILURE;}
- return SUCCESS;
- }
- /* Per frame equation case */
- if (!strncmp(eqn_string, PER_FRAME_STRING, PER_FRAME_STRING_LENGTH)) {
- /* Sometimes per frame equations are implicitly defined without the
- per_frame_ prefix. This informs the parser that one could follow */
- line_mode = PER_FRAME_LINE_MODE;
- //if (PARSE_DEBUG) printf("parse_line: per frame equation found...(LINE %d)n", line_count);
- /* Parse the per frame equation */
- if ((per_frame_eqn = parse_per_frame_eqn(fs, ++per_frame_eqn_count, preset)) == NULL) {
- if (PARSE_DEBUG) printf("parse_line: per frame equation parsing failed (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Insert the equation in the per frame equation tree */
- if (splay_insert(per_frame_eqn, &per_frame_eqn_count, preset->per_frame_eqn_tree) < 0) {
- if (PARSE_DEBUG) printf("parse_line: failed to add a perframe equation (ERROR)n");
- free_per_frame_eqn(per_frame_eqn); /* will free the gen expr too */
- return ERROR;
- }
- if (update_string_buffer(preset->per_frame_eqn_string_buffer,
- &preset->per_frame_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- /* Wavecode initial condition case */
- if (!strncmp(eqn_string, WAVECODE_STRING, WAVECODE_STRING_LENGTH)) {
- line_mode = CUSTOM_WAVE_WAVECODE_LINE_MODE;
- //if (PARSE_DEBUG)
- // printf("parse_line: wavecode prefix found: "%s"n", eqn_string);
- // printf("string:%dn", 5);
- //SUPER MYSTERIO-BUG - Don't Remove
- printf("");
- return parse_wavecode(eqn_string, fs, preset);
- }
- /* Custom Wave Prefix */
- if ((!strncmp(eqn_string, WAVE_STRING, WAVE_STRING_LENGTH)) &&
- ((eqn_string[5] >= 48) && (eqn_string[5] <= 57))) {
- // if (PARSE_DEBUG) printf("parse_line wave prefix found: "%s"n", eqn_string);
- return parse_wave(eqn_string, fs, preset);
- }
- /* Shapecode initial condition case */
- if (!strncmp(eqn_string, SHAPECODE_STRING, SHAPECODE_STRING_LENGTH)) {
- line_mode = CUSTOM_SHAPE_SHAPECODE_LINE_MODE;
- if (PARSE_DEBUG) printf("parse_line: shapecode prefix found: "%s"n", eqn_string);
- return parse_shapecode(eqn_string, fs, preset);
- }
- /* Custom Shape Prefix */
- if ((!strncmp(eqn_string, SHAPE_STRING, SHAPE_STRING_LENGTH)) &&
- ((eqn_string[6] >= 48) && (eqn_string[6] <= 57))) {
- if (PARSE_DEBUG) printf("parse_line shape prefix found: "%s"n", eqn_string);
- return parse_shape(eqn_string, fs, preset);
- }
- /* Per pixel equation case */
- if (!strncmp(eqn_string, PER_PIXEL_STRING, PER_PIXEL_STRING_LENGTH)) {
- line_mode = PER_PIXEL_LINE_MODE;
- if (parse_per_pixel_eqn(fs, preset) < 0)
- return PARSE_ERROR;
- if (update_string_buffer(preset->per_pixel_eqn_string_buffer,
- &preset->per_pixel_eqn_string_index) < 0)
- return FAILURE;
- if (PARSE_DEBUG) printf("parse_line: finished parsing per pixel equation (LINE %d)n", line_count);
- return SUCCESS;
- }
- /* Sometimes equations are written implicitly in milkdrop files, in the form
- per_frame_1 = p1 = eqn1; p2 = eqn2; p3 = eqn3;..;
- which is analagous to:
- per_frame_1 = p1 = eqn1; per_frame_2 = p2 = eqn2; per_frame_3 = p3 = eqn3; ...;
- The following line mode hack allows such implicit declaration of the
- prefix that specifies the equation type. An alternative method
- may be to associate each equation line as list of equations separated
- by semicolons (and a new line ends the list). Instead, however, a global
- variable called "line_mode" specifies the last type of equation found,
- and bases any implicitly typed input on this fact
- Note added by Carmelo Piccione (cep@andrew.cmu.edu) 10/19/03
- */
- /* Per frame line mode previously, try to parse the equation implicitly */
- if (line_mode == PER_FRAME_LINE_MODE) {
- if ((per_frame_eqn = parse_implicit_per_frame_eqn(fs, eqn_string, ++per_frame_eqn_count, preset)) == NULL)
- return PARSE_ERROR;
- /* Insert the equation in the per frame equation tree */
- if (splay_insert(per_frame_eqn, &per_frame_eqn_count, preset->per_frame_eqn_tree) < 0) {
- if (PARSE_DEBUG) printf("parse_line: failed to add a perframe equation (ERROR)n");
- free_per_frame_eqn(per_frame_eqn); /* will free the gen expr too */
- return ERROR;
- }
- if (update_string_buffer(preset->per_frame_eqn_string_buffer,
- &preset->per_frame_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- //if (PARSE_DEBUG) printf("parse_line: found initial condition: name = "%s" (LINE %d)n", eqn_string, line_count);
- /* Evaluate the initial condition */
- if ((init_cond = parse_init_cond(fs, eqn_string, preset)) == NULL) {
- if (PARSE_DEBUG) printf("parse_line: failed to parse initial condition (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Add equation to initial condition tree */
- if (splay_insert(init_cond, init_cond->param->name, preset->init_cond_tree) < 0) {
- if (PARSE_DEBUG) printf("parse_line: failed to add initial condition "%s" to equation tree (LINE %d)n",
- init_cond->param->name, line_count);
- free_init_cond(init_cond);
- return FAILURE;
- }
- /* Finished with initial condition line */
- // if (PARSE_DEBUG) printf("parse_line: initial condition parsed successfullyn");
- return SUCCESS;
- /* END INITIAL CONDITIONING PARSING */
- default: /* an uncaught type or an error has occurred */
- if (PARSE_DEBUG) printf("parse_line: uncaught case, token val = %dn", token);
- return PARSE_ERROR;
- }
- /* Because of the default in the case statement,
- control flow should never actually reach here */
- return PARSE_ERROR;
- }
- /* Parses a general expression, this function is the meat of the parser */
- gen_expr_t * parse_gen_expr (FILE * fs, tree_expr_t * tree_expr, struct PRESET_T * preset) {
- int i;
- char string[MAX_TOKEN_SIZE];
- token_t token;
- gen_expr_t * gen_expr;
- double val;
- param_t * param = NULL;
- func_t * func;
- gen_expr_t ** expr_list;
- switch (token = parseToken(fs,string)) {
- /* Left Parentice Case */
- case tLPr:
- /* CASE 1 (Left Parentice): See if the previous string before this parentice is a function name */
- if ((func = find_func(string)) != NULL) {
- if (PARSE_DEBUG) printf("parse_gen_expr: found prefix function (name = %s) (LINE %d)n", func->name, line_count);
- /* Parse the functions arguments */
- if ((expr_list = parse_prefix_args(fs, func->num_args, preset)) == NULL) {
- if (PARSE_DEBUG) printf("parse_prefix_args: failed to generate an expresion list! (LINE %d) n", line_count);
- free_tree_expr(tree_expr);
- return NULL;
- }
- /* Convert function to expression */
- if ((gen_expr = prefun_to_expr((void*)func->func_ptr, expr_list, func->num_args)) == NULL) {
- if (PARSE_DEBUG) printf("parse_prefix_args: failed to convert prefix function to general expression (LINE %d) n",
- line_count);
- free_tree_expr(tree_expr);
- for (i = 0; i < func->num_args;i++)
- free_gen_expr(expr_list[i]);
- free(expr_list);
- return NULL;
- }
- token = parseToken(fs, string);
- if (*string != 0) {
- if (PARSE_DEBUG) printf("parse_prefix_args: empty string expected, but not found...(LINE %d)n", line_count);
- /* continue anyway for now, could be implicit multiplication */
- }
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* Case 2: (Left Parentice), a string coupled with a left parentice. Either an error or implicit
- multiplication operator. For now treat it as an error */
- if (*string != 0) {
- if (PARSE_DEBUG) printf("parse_gen_expr: implicit multiplication case unimplemented!n");
- free_tree_expr(tree_expr);
- return NULL;
- }
- /* CASE 3 (Left Parentice): the following is enclosed parentices to change order
- of operations. So we create a new expression tree */
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_gen_expr: found left parentice, but failed to create new expression tree n");
- free_tree_expr(tree_expr);
- return NULL;
- }
- if (PARSE_DEBUG) printf("parse_gen_expr: finished enclosed expression tree...n");
- token = parseToken(fs, string);
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- /* Plus is a prefix operator check */
- case tPlus:
- if (*string == 0) {
- //if (PARSE_DEBUG) printf("parse_gen_expr: plus used as prefix (LINE %d)n", line_count);
- /* Treat prefix plus as implict 0 preceding operator */
- gen_expr = const_to_expr(0);
- return parse_infix_op(fs, tPositive, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* Minus is a prefix operator check */
- case tMinus:
- if (*string == 0) {
- /* Use the negative infix operator, but first add an implicit zero to the operator tree */
- gen_expr = const_to_expr(0);
- //return parse_gen_expr(fs, insert_gen_expr(gen_expr, &tree_expr), preset);
- return parse_infix_op(fs, tNegative, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* All the following cases are strings followed by an infix operator or terminal */
- case tRPr:
- case tEOL:
- case tEOF:
- case tSemiColon:
- case tComma:
- /* CASE 1 (terminal): string is empty, but not null. Not sure if this will actually happen
- any more. */
- if (*string == 0) {
- //if (PARSE_DEBUG) printf("parse_gen_expr: empty string coupled with terminal (LINE %d) n", line_count);
- return parse_infix_op(fs, token, tree_expr, preset);
- }
- default:
- /* CASE 0: Empty string, parse error */
- if (*string == 0) {
- if (PARSE_DEBUG) printf("parse_gen_expr: empty string coupled with infix op (ERROR!) (LINE %d) n", line_count);
- free_tree_expr(tree_expr);
- return NULL;
- }
- /* CASE 1: Check if string is a just a floating point number */
- if (string_to_float(string, &val) != PARSE_ERROR) {
- if ((gen_expr = const_to_expr(val)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- /* Parse the rest of the line */
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* CASE 4: custom shape variable */
- if (current_shape != NULL) {
- if ((param = find_param_db(string, current_shape->param_tree, FALSE)) == NULL) {
- if ((param = find_builtin_param(string)) == NULL)
- if ((param = find_param_db(string, current_shape->param_tree, TRUE)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- }
- if (PARSE_DEBUG) {
- printf("parse_gen_expr: custom shape parameter (name = %s)... ", param->name);
- fflush(stdout);
- }
- /* Convert parameter to an expression */
- if ((gen_expr = param_to_expr(param)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- //if (PARSE_DEBUG) printf("converted to expression (LINE %d)n", line_count);
- /* Parse the rest of the line */
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* CASE 5: custom wave variable */
- if (current_wave != NULL) {
- if ((param = find_param_db(string, current_wave->param_tree, FALSE)) == NULL) {
- if ((param = find_builtin_param(string)) == NULL)
- if ((param = find_param_db(string, current_wave->param_tree, TRUE)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- }
- if (PARSE_DEBUG) {
- printf("parse_gen_expr: custom wave parameter (name = %s)... ", param->name);
- fflush(stdout);
- }
- /* Convert parameter to an expression */
- if ((gen_expr = param_to_expr(param)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- if (PARSE_DEBUG) printf("converted to expression (LINE %d)n", line_count);
- /* Parse the rest of the line */
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* CASE 6: regular parameter. Will be created if necessary and the string has no invalid characters */
- if ((param = find_param(string, preset, P_CREATE)) != NULL) {
- if (PARSE_DEBUG) {
- printf("parse_gen_expr: parameter (name = %s)... ", param->name);
- fflush(stdout);
- }
- /* Convert parameter to an expression */
- if ((gen_expr = param_to_expr(param)) == NULL) {
- free_tree_expr(tree_expr);
- return NULL;
- }
- if (PARSE_DEBUG) printf("converted to expression (LINE %d)n", line_count);
- /* Parse the rest of the line */
- return parse_infix_op(fs, token, insert_gen_expr(gen_expr, &tree_expr), preset);
- }
- /* CASE 7: Bad string, give up */
- if (PARSE_DEBUG) printf("parse_gen_expr: syntax error [string = "%s"] (LINE %d)n", string, line_count);
- free_tree_expr(tree_expr);
- return NULL;
- }
- }
- /* Inserts expressions into tree according to operator precedence.
- If root is null, a new tree is created, with gen_expr as only element */
- tree_expr_t * insert_infix_op(infix_op_t * infix_op, tree_expr_t **root) {
- tree_expr_t * new_root;
- /* Sanity check */
- if (infix_op == NULL)
- return NULL;
- /* The root is null, so make this operator
- the new root */
- if (*root == NULL) {
- new_root = new_tree_expr(infix_op, NULL, NULL, NULL);
- *root = new_root;
- return new_root;
- }
- /* The root node is not an infix function,
- so we make this infix operator the new root */
- if ((*root)->infix_op == NULL) {
- new_root = new_tree_expr(infix_op, NULL, *root, NULL);
- (*root) = new_root;
- return new_root;
- }
- /* The root is an infix function. If the precedence
- of the item to be inserted is greater than the root's
- precedence, then make gen_expr the root */
- if (infix_op->precedence > (*root)->infix_op->precedence) {
- new_root = new_tree_expr(infix_op, NULL, *root, NULL);
- (*root) = new_root;
- return new_root;
- }
- /* If control flow reaches here, use a recursive helper
- with the knowledge that the root is higher precedence
- than the item to be inserted */
- insert_infix_rec(infix_op, *root);
- return *root;
- }
- tree_expr_t * insert_gen_expr(gen_expr_t * gen_expr, tree_expr_t ** root) {
- tree_expr_t * new_root;
- /* If someone foolishly passes a null
- pointer to insert, return the original tree */
- if (gen_expr == NULL) {
- return *root;
- }
- /* If the root is null, generate a new expression tree,
- using the passed expression as the root element */
- if (*root == NULL) {
- new_root = new_tree_expr(NULL, gen_expr, NULL, NULL);
- *root = new_root;
- return new_root;
- }
- /* Otherwise. the new element definitely will not replace the current root.
- Use a recursive helper function to do insertion */
- insert_gen_rec(gen_expr, *root);
- return *root;
- }
- /* A recursive helper function to insert general expression elements into the operator tree */
- int insert_gen_rec(gen_expr_t * gen_expr, tree_expr_t * root) {
- /* Trivial Case: root is null */
- if (root == NULL) {
- ////if (PARSE_DEBUG) printf("insert_gen_rec: root is null, returning failuren");
- return FAILURE;
- }
- /* The current node's left pointer is null, and this
- current node is an infix operator, so insert the
- general expression at the left pointer */
- if ((root->left == NULL) && (root->infix_op != NULL)) {
- root->left = new_tree_expr(NULL, gen_expr, NULL, NULL);
- return SUCCESS;
- }
- /* The current node's right pointer is null, and this
- current node is an infix operator, so insert the
- general expression at the right pointer */
- if ((root->right == NULL) && (root->infix_op != NULL)) {
- root->right = new_tree_expr(NULL, gen_expr, NULL, NULL);
- return SUCCESS;
- }
- /* Otherwise recurse down to the left. If
- this succeeds then return. If it fails, try
- recursing down to the right */
- if (insert_gen_rec(gen_expr, root->left) == FAILURE)
- return insert_gen_rec(gen_expr, root->right);
- /* Impossible for control flow to reach here, but in
- the world of C programming, who knows... */
- //if (PARSE_DEBUG) printf("insert_gen_rec: should never reach here!n");
- return FAILURE;
- }
- /* A recursive helper function to insert infix arguments by operator precedence */
- int insert_infix_rec(infix_op_t * infix_op, tree_expr_t * root) {
- /* Shouldn't happen, implies a parse error */
- if (root == NULL)
- return FAILURE;
- /* Also shouldn't happen, also implies a (different) parse error */
- if (root->infix_op == NULL)
- return FAILURE;
- /* Left tree is empty, attach this operator to it.
- I don't think this will ever happen */
- if (root->left == NULL) {
- root->left = new_tree_expr(infix_op, NULL, root->left, NULL);
- return SUCCESS;
- }
- /* Right tree is empty, attach this operator to it */
- if (root->right == NULL) {
- root->right = new_tree_expr(infix_op, NULL, root->right, NULL);
- return SUCCESS;
- }
- /* The left element can now be ignored, since there is no way for this
- operator to use those expressions */
- /* If the right element is not an infix operator,
- then insert the expression here, attaching the old right branch
- to the left of the new expression */
- if (root->right->infix_op == NULL) {
- root->right = new_tree_expr(infix_op, NULL, root->right, NULL);
- return SUCCESS;
- }
- /* Traverse deeper if the inserting operator precedence is less than the
- the root's right operator precedence */
- if (infix_op->precedence < root->right->infix_op->precedence)
- return insert_infix_rec(infix_op, root->right);
- /* Otherwise, insert the operator here */
- root->right = new_tree_expr(infix_op, NULL, root->right, NULL);
- return SUCCESS;
- }
- /* Parses an infix operator */
- gen_expr_t * parse_infix_op(FILE * fs, token_t token, tree_expr_t * tree_expr, struct PRESET_T * preset) {
- gen_expr_t * gen_expr;
- switch (token) {
- /* All the infix operators */
- case tPlus:
- //if (PARSE_DEBUG) printf("parse_infix_op: found addition operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_add, &tree_expr), preset);
- case tMinus:
- //if (PARSE_DEBUG) printf("parse_infix_op: found subtraction operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_minus, &tree_expr), preset);
- case tMult:
- //if (PARSE_DEBUG) printf("parse_infix_op: found multiplication operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_mult, &tree_expr), preset);
- case tDiv:
- //if (PARSE_DEBUG) printf("parse_infix_op: found division operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_div, &tree_expr), preset);
- case tMod:
- //if (PARSE_DEBUG) printf("parse_infix_op: found modulo operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_mod, &tree_expr), preset);
- case tOr:
- //if (PARSE_DEBUG) printf("parse_infix_op: found bitwise or operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_or, &tree_expr), preset);
- case tAnd:
- //if (PARSE_DEBUG) printf("parse_infix_op: found bitwise and operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_and, &tree_expr), preset);
- case tPositive:
- //if (PARSE_DEBUG) printf("parse_infix_op: found positive operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_positive, &tree_expr), preset);
- case tNegative:
- //if (PARSE_DEBUG) printf("parse_infix_op: found negative operator (LINE %d)n", line_count);
- return parse_gen_expr(fs, insert_infix_op(infix_negative, &tree_expr), preset);
- case tEOL:
- case tEOF:
- case tSemiColon:
- case tRPr:
- case tComma:
- //if (PARSE_DEBUG) printf("parse_infix_op: terminal found (LINE %d)n", line_count);
- gen_expr = new_gen_expr(TREE_T, (void*)tree_expr);
- return gen_expr;
- default:
- //if (PARSE_DEBUG) printf("parse_infix_op: operator or terminal expected, but not found (LINE %d)n", line_count);
- free_tree_expr(tree_expr);
- return NULL;
- }
- /* Will never happen */
- return NULL;
- }
- /* Parses an integer, checks for +/- prefix */
- int parse_int(FILE * fs, int * int_ptr) {
- char string[MAX_TOKEN_SIZE];
- token_t token;
- int sign;
- char * end_ptr = " ";
- token = parseToken(fs, string);
- switch (token) {
- case tMinus:
- sign = -1;
- token = parseToken(fs, string);
- break;
- case tPlus:
- sign = 1;
- token = parseToken(fs, string);
- break;
- default:
- sign = 1;
- break;
- }
- if (string[0] == 0)
- return PARSE_ERROR;
- /* Convert the string to an integer. *end_ptr
- should end up pointing to null terminator of 'string'
- if the conversion was successful. */
- // printf("STRING: "%s"n", string);
- (*int_ptr) = sign*strtol(string, &end_ptr, 10);
- /* If end pointer is a return character or null terminator, all is well */
- if ((*end_ptr == 'r') || (*end_ptr == ' '))
- return SUCCESS;
- return PARSE_ERROR;
- }
- /* Parses a floating point number */
- int string_to_float(char * string, double * float_ptr) {
- char ** error_ptr;
- if (*string == 0)
- return PARSE_ERROR;
- error_ptr = malloc(sizeof(char**));
- (*float_ptr) = strtod(string, error_ptr);
- /* These imply a succesful parse of the string */
- if ((**error_ptr == ' ') || (**error_ptr == 'r')) {
- free(error_ptr);
- return SUCCESS;
- }
- (*float_ptr) = 0;
- free(error_ptr);
- return PARSE_ERROR;
- }
- /* Parses a floating point number */
- int parse_float(FILE * fs, double * float_ptr) {
- char string[MAX_TOKEN_SIZE];
- char ** error_ptr;
- token_t token;
- int sign;
- error_ptr = malloc(sizeof(char**));
- token = parseToken(fs, string);
- switch (token) {
- case tMinus:
- sign = -1;
- token = parseToken(fs, string);
- break;
- case tPlus:
- sign = 1;
- token = parseToken(fs, string);
- break;
- default:
- sign = 1;
- }
- if (string[0] == 0) {
- free(error_ptr);
- return PARSE_ERROR;
- }
- (*float_ptr) = sign*strtod(string, error_ptr);
- /* No conversion was performed */
- if ((**error_ptr == ' ') || (**error_ptr == 'r')) {
- free(error_ptr);
- return SUCCESS;
- }
- //if (PARSE_DEBUG) printf("parse_float: double conversion failed for string "%s"n", string);
- (*float_ptr) = 0;
- free(error_ptr);
- return PARSE_ERROR;
- }
- /* Parses a per frame equation. That is, interprets a stream of data as a per frame equation */
- per_frame_eqn_t * parse_per_frame_eqn(FILE * fs, int index, struct PRESET_T * preset) {
- char string[MAX_TOKEN_SIZE];
- param_t * param;
- per_frame_eqn_t * per_frame_eqn;
- gen_expr_t * gen_expr;
- if (parseToken(fs, string) != tEq) {
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: no equal sign after string "%s" (LINE %d)n", string, line_count);
- return NULL;
- }
- /* Find the parameter associated with the string, create one if necessary */
- if ((param = find_param(string, preset, P_CREATE)) == NULL) {
- return NULL;
- }
- /* Make sure parameter is writable */
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: parameter %s is marked as read only (LINE %d)n", param->name, line_count);
- return NULL;
- }
- /* Parse right side of equation as an expression */
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: equation evaluated to null (LINE %d)n", line_count);
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: finished per frame equation evaluation (LINE %d)n", line_count);
- /* Create a new per frame equation */
- if ((per_frame_eqn = new_per_frame_eqn(index, param, gen_expr)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: failed to create a new per frame eqn, out of memory?n");
- free_gen_expr(gen_expr);
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_per_frame_eqn: per_frame eqn parsed succesfullyn");
- return per_frame_eqn;
- }
- /* Parses an 'implicit' per frame equation. That is, interprets a stream of data as a per frame equation without a prefix */
- per_frame_eqn_t * parse_implicit_per_frame_eqn(FILE * fs, char * param_string, int index, struct PRESET_T * preset) {
- param_t * param;
- per_frame_eqn_t * per_frame_eqn;
- gen_expr_t * gen_expr;
- if (fs == NULL)
- return NULL;
- if (param_string == NULL)
- return NULL;
- if (preset == NULL)
- return NULL;
- //rintf("param string: %sn", param_string);
- /* Find the parameter associated with the string, create one if necessary */
- if ((param = find_param(param_string, preset, P_CREATE)) == NULL) {
- return NULL;
- }
- //printf("parse_implicit_per_frame_eqn: param is %sn", param->name);
- /* Make sure parameter is writable */
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("parse_implicit_per_frame_eqn: parameter %s is marked as read only (LINE %d)n", param->name, line_count);
- return NULL;
- }
- /* Parse right side of equation as an expression */
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_implicit_per_frame_eqn: equation evaluated to null (LINE %d)n", line_count);
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_implicit_per_frame_eqn: finished per frame equation evaluation (LINE %d)n", line_count);
- /* Create a new per frame equation */
- if ((per_frame_eqn = new_per_frame_eqn(index, param, gen_expr)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_implicit_per_frame_eqn: failed to create a new per frame eqn, out of memory?n");
- free_gen_expr(gen_expr);
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_implicit_per_frame_eqn: per_frame eqn parsed succesfullyn");
- return per_frame_eqn;
- }
- /* Parses an initial condition */
- init_cond_t * parse_init_cond(FILE * fs, char * name, struct PRESET_T * preset) {
- param_t * param;
- value_t init_val;
- init_cond_t * init_cond;
- if (name == NULL)
- return NULL;
- if (preset == NULL)
- return NULL;
- /* Search for the paramater in the database, creating it if necessary */
- if ((param = find_param(name, preset, P_CREATE)) == NULL) {
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_init_cond: parameter = "%s" (LINE %d)n", param->name, line_count);
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("parse_init_cond: builtin parameter "%s" marked as read only!n", param->name);
- return NULL;
- }
- /* At this point, a parameter has been created or was found
- in the database. */
- //if (PARSE_DEBUG) printf("parse_init_cond: parsing initial condition value... (LINE %d)n", line_count);
- /* integer value (boolean is an integer in C) */
- if ((param->type == P_TYPE_INT) || (param->type == P_TYPE_BOOL)) {
- if ((parse_int(fs, (int*)&init_val.int_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_init_cond: error parsing integer!n");
- return NULL;
- }
- }
- /* double value */
- else if (param->type == P_TYPE_DOUBLE) {
- if ((parse_float(fs, (double*)&init_val.double_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_init_cond: error parsing double!n");
- return NULL;
- }
- }
- /* Unknown value */
- else {
- //if (PARSE_DEBUG) printf("parse_init_cond: unknown parameter type!n");
- return NULL;
- }
- /* Create new initial condition */
- if ((init_cond = new_init_cond(param, init_val)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_init_cond: new_init_cond failed!n");
- return NULL;
- }
- /* Finished */
- return init_cond;
- }
- /* Parses a per frame init equation, not sure if this works right now */
- init_cond_t * parse_per_frame_init_eqn(FILE * fs, struct PRESET_T * preset, splaytree_t * database) {
- char name[MAX_TOKEN_SIZE];
- param_t * param = NULL;
- value_t init_val;
- init_cond_t * init_cond;
- gen_expr_t * gen_expr;
- double val;
- token_t token;
- if (preset == NULL)
- return NULL;
- if (fs == NULL)
- return NULL;
- if ((token = parseToken(fs, name)) != tEq)
- return NULL;
- /* If a database was specified,then use find_param_db instead */
- if ((database != NULL) && ((param = find_param_db(name, database, TRUE)) == NULL)) {
- return NULL;
- }
- /* Otherwise use the builtin parameter and user databases. This is confusing. Sorry. */
- if ((param == NULL) && ((param = find_param(name, preset, P_CREATE)) == NULL)) {
- return NULL;
- }
- //if (PARSE_DEBUG) printf("parse_per_frame_init_eqn: parameter = "%s" (LINE %d)n", param->name, line_count);
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("pars_per_frame_init_eqn: builtin parameter "%s" marked as read only!n", param->name);
- return NULL;
- }
- /* At this point, a parameter has been created or was found
- in the database. */
- //if (PARSE_DEBUG) printf("parse_per_frame_init_eqn: parsing right hand side of per frame init equation.. (LINE %d)n", line_count);
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_per_frame_init_eqn: failed to parse general expresion!n");
- return NULL;
- }
- /* Compute initial condition value */
- val = eval_gen_expr(gen_expr);
- /* Free the general expression now that we are done with it */
- free_gen_expr(gen_expr);
- /* integer value (boolean is an integer in C) */
- if ((param->type == P_TYPE_INT) || (param->type == P_TYPE_BOOL)) {
- init_val.int_val = (int)val;
- }
- /* double value */
- else if (param->type == P_TYPE_DOUBLE) {
- init_val.double_val = val;
- }
- /* Unknown value */
- else {
- //if (PARSE_DEBUG) printf("parse_per_frame_init_eqn: unknown parameter type!n");
- return NULL;
- }
- /* Create new initial condition */
- if ((init_cond = new_init_cond(param, init_val)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_per_frame_init_eqn: new_init_cond failed!n");
- return NULL;
- }
- /* Finished */
- return init_cond;
- }
- int parse_wavecode(char * token, FILE * fs, preset_t * preset) {
- char * var_string;
- init_cond_t * init_cond;
- custom_wave_t * custom_wave;
- int id;
- value_t init_val;
- param_t * param;
- /* Null argument checks */
- if (preset == NULL)
- return FAILURE;
- if (fs == NULL)
- return FAILURE;
- if (token == NULL)
- return FAILURE;
- /* token should be in the form wavecode_N_var, such as wavecode_1_samples */
- /* Get id and variable name from token string */
- if (parse_wavecode_prefix(token, &id, &var_string) < 0)
- return PARSE_ERROR;
- //if (PARSE_DEBUG) printf("parse_wavecode: wavecode id = %d, parameter = "%s"n", id, var_string);
- /* Retrieve custom wave information from preset. The 3rd argument
- if true creates a custom wave if one does not exist */
- if ((custom_wave = find_custom_wave(id, preset, TRUE)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wavecode: failed to load (or create) custom wave (id = %d)!n", id);
- return FAILURE;
- }
- //if (PARSE_DEBUG) printf("parse_wavecode: custom wave found (id = %d)n", custom_wave->id);
- /* Retrieve parameter from this custom waves parameter db */
- if ((param = find_param_db(var_string, custom_wave->param_tree, TRUE)) == NULL)
- return FAILURE;
- //if (PARSE_DEBUG) printf("parse_wavecode: custom wave parameter found (name = %s)n", param->name);
- /* integer value (boolean is an integer in C) */
- if ((param->type == P_TYPE_INT) || (param->type == P_TYPE_BOOL)) {
- if ((parse_int(fs, (int*)&init_val.int_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_wavecode: error parsing integer!n");
- return PARSE_ERROR;
- }
- }
- /* double value */
- else if (param->type == P_TYPE_DOUBLE) {
- if ((parse_float(fs, (double*)&init_val.double_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_wavecode: error parsing double!n");
- return PARSE_ERROR;
- }
- }
- /* Unknown value */
- else {
- //if (PARSE_DEBUG) printf("parse_wavecode: unknown parameter type!n");
- return PARSE_ERROR;
- }
- /* Create new initial condition */
- if ((init_cond = new_init_cond(param, init_val)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wavecode: new_init_cond failed!n");
- return FAILURE;
- }
- if (splay_insert(init_cond, param->name, custom_wave->init_cond_tree) < 0) {
- free_init_cond(init_cond);
- return PARSE_ERROR;
- }
- //if (PARSE_DEBUG) printf("parse_wavecode: [success]n");
- return SUCCESS;
- }
- int parse_shapecode(char * token, FILE * fs, preset_t * preset) {
- char * var_string;
- init_cond_t * init_cond;
- custom_shape_t * custom_shape;
- int id;
- value_t init_val;
- param_t * param;
- /* Null argument checks */
- if (preset == NULL)
- return FAILURE;
- if (fs == NULL)
- return FAILURE;
- if (token == NULL)
- return FAILURE;
- /* token should be in the form shapecode_N_var, such as shapecode_1_samples */
- /* Get id and variable name from token string */
- if (parse_shapecode_prefix(token, &id, &var_string) < 0)
- return PARSE_ERROR;
- //if (PARSE_DEBUG) printf("parse_shapecode: shapecode id = %d, parameter = "%s"n", id, var_string);
- /* Retrieve custom shape information from preset. The 3rd argument
- if true creates a custom shape if one does not exist */
- if ((custom_shape = find_custom_shape(id, preset, TRUE)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shapecode: failed to load (or create) custom shape (id = %d)!n", id);
- return FAILURE;
- }
- //if (PARSE_DEBUG) printf("parse_shapecode: custom shape found (id = %d)n", custom_shape->id);
- /* Retrieve parameter from this custom shapes parameter db */
- if ((param = find_param_db(var_string, custom_shape->param_tree, TRUE)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shapecode: failed to create parameter.n");
- return FAILURE;
- }
- //if (PARSE_DEBUG) printf("parse_shapecode: custom shape parameter found (name = %s)n", param->name);
- /* integer value (boolean is an integer in C) */
- if ((param->type == P_TYPE_INT) || (param->type == P_TYPE_BOOL)) {
- if ((parse_int(fs, (int*)&init_val.int_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_shapecode: error parsing integer!n");
- return PARSE_ERROR;
- }
- }
- /* double value */
- else if (param->type == P_TYPE_DOUBLE) {
- if ((parse_float(fs, (double*)&init_val.double_val)) == PARSE_ERROR) {
- //if (PARSE_DEBUG) printf("parse_shapecode: error parsing double!n");
- return PARSE_ERROR;
- }
- }
- /* Unknown value */
- else {
- //if (PARSE_DEBUG) printf("parse_shapecode: unknown parameter type!n");
- return PARSE_ERROR;
- }
- /* Create new initial condition */
- if ((init_cond = new_init_cond(param, init_val)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shapecode: new_init_cond failed!n");
- return FAILURE;
- }
- if (splay_insert(init_cond, param->name, custom_shape->init_cond_tree) < 0) {
- free_init_cond(init_cond);
- //if (PARSE_DEBUG) printf("parse_shapecode: initial condition already set, not reinserting it (param = "%s")n", param->name);
- return PARSE_ERROR;
- }
- //if (PARSE_DEBUG) printf("parse_shapecode: [success]n");
- return SUCCESS;
- }
- int parse_wavecode_prefix(char * token, int * id, char ** var_string) {
- int len, i, j;
- if (token == NULL)
- return FAILURE;
- if (*var_string == NULL)
- return FAILURE;
- if (id == NULL)
- return FAILURE;
- len = strlen(token);
- /* Move pointer passed "wavecode_" prefix */
- if (len <= WAVECODE_STRING_LENGTH)
- return FAILURE;
- i = WAVECODE_STRING_LENGTH;
- j = 0;
- (*id) = 0;
- /* This loop grabs the integer id for this custom wave */
- while ((i < len) && (token[i] >= 48) && (token[i] <= 57)) {
- if (j >= MAX_TOKEN_SIZE)
- return FAILURE;
- (*id) = 10*(*id) + (token[i]-48);
- j++;
- i++;
- }
- if (i > (len - 2))
- return FAILURE;
- *var_string = token + i + 1;
- return SUCCESS;
- }
- int parse_shapecode_prefix(char * token, int * id, char ** var_string) {
- int len, i, j;
- if (token == NULL)
- return FAILURE;
- if (*var_string == NULL)
- return FAILURE;
- if (id == NULL)
- return FAILURE;
- len = strlen(token);
- /* Move pointer passed "shapecode_" prefix */
- if (len <= SHAPECODE_STRING_LENGTH)
- return FAILURE;
- i = SHAPECODE_STRING_LENGTH;
- j = 0;
- (*id) = 0;
- /* This loop grabs the integer id for this custom shape */
- while ((i < len) && (token[i] >= 48) && (token[i] <= 57)) {
- if (j >= MAX_TOKEN_SIZE)
- return FAILURE;
- (*id) = 10*(*id) + (token[i]-48);
- j++;
- i++;
- }
- if (i > (len - 2))
- return FAILURE;
- *var_string = token + i + 1;
- return SUCCESS;
- }
- int parse_wave_prefix(char * token, int * id, char ** eqn_string) {
- int len, i, j;
- if (token == NULL)
- return FAILURE;
- if (eqn_string == NULL)
- return FAILURE;
- if (id == NULL)
- return FAILURE;
- len = strlen(token);
- if (len <= WAVE_STRING_LENGTH)
- return FAILURE;
- i = WAVE_STRING_LENGTH;
- j = 0;
- (*id) = 0;
- /* This loop grabs the integer id for this custom wave */
- while ((i < len) && (token[i] >= 48) && (token[i] <= 57)) {
- if (j >= MAX_TOKEN_SIZE)
- return FAILURE;
- (*id) = 10*(*id) + (token[i]-48);
- j++;
- i++;
- }
- if (i > (len - 2))
- return FAILURE;
- *eqn_string = token + i + 1;
- return SUCCESS;
- }
- int parse_shape_prefix(char * token, int * id, char ** eqn_string) {
- int len, i, j;
- if (token == NULL)
- return FAILURE;
- if (eqn_string == NULL)
- return FAILURE;
- if (id == NULL)
- return FAILURE;
- len = strlen(token);
- if (len <= SHAPE_STRING_LENGTH)
- return FAILURE;
- i = SHAPE_STRING_LENGTH;
- j = 0;
- (*id) = 0;
- /* This loop grabs the integer id for this custom wave */
- while ((i < len) && (token[i] >= 48) && (token[i] <= 57)) {
- if (j >= MAX_TOKEN_SIZE)
- return FAILURE;
- (*id) = 10*(*id) + (token[i]-48);
- j++;
- i++;
- }
- if (i > (len - 2))
- return FAILURE;
- *eqn_string = token + i + 1;
- return SUCCESS;
- }
- /* Parses custom wave equations */
- int parse_wave(char * token, FILE * fs, preset_t * preset) {
- int id;
- char * eqn_type;
- char string[MAX_TOKEN_SIZE];
- param_t * param;
- per_frame_eqn_t * per_frame_eqn;
- gen_expr_t * gen_expr;
- custom_wave_t * custom_wave;
- init_cond_t * init_cond;
- if (token == NULL)
- return FAILURE;
- if (fs == NULL)
- return FAILURE;
- if (preset == NULL)
- return FAILURE;
- /* Grab custom wave id and equation type (per frame or per point) from string token */
- if (parse_wave_prefix(token, &id, &eqn_type) < 0) {
- //if (PARSE_DEBUG) printf("parse_wave: syntax error in custom wave prefix!n");
- return FAILURE;
- }
- /* Retrieve custom wave associated with this id */
- if ((custom_wave = find_custom_wave(id, preset, TRUE)) == NULL)
- return FAILURE;
- /* per frame init equation case */
- if (!strncmp(eqn_type, WAVE_INIT_STRING, WAVE_INIT_STRING_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_wave (per frame init): [begin] (LINE %d)n", line_count);
- /* Parse the per frame equation */
- if ((init_cond = parse_per_frame_init_eqn(fs, preset, custom_wave->param_tree)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wave (per frame init): equation parsing failed (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Insert the equation in the per frame equation tree */
- if (splay_insert(init_cond, init_cond->param->name, custom_wave->per_frame_init_eqn_tree) < 0) {
- //if (PARSE_DEBUG) printf("parse_wave (per frame init): failed to add equation (ERROR)n");
- free_init_cond(init_cond); /* will free the gen expr too */
- return FAILURE;
- }
- if (update_string_buffer(custom_wave->per_frame_init_eqn_string_buffer,
- &custom_wave->per_frame_init_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- /* per frame equation case */
- if (!strncmp(eqn_type, PER_FRAME_STRING_NO_UNDERSCORE, PER_FRAME_STRING_NO_UNDERSCORE_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): [start] (custom wave id = %d)n", custom_wave->id);
- if (parseToken(fs, string) != tEq) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): no equal sign after string "%s" (LINE %d)n", string, line_count);
- return PARSE_ERROR;
- }
- /* Find the parameter associated with the string in the custom wave database */
- if ((param = find_param_db(string, custom_wave->param_tree, TRUE)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): parameter "%s" not found or cannot be malloc'ed!!n", string);
- return FAILURE;
- }
- /* Make sure parameter is writable */
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): parameter %s is marked as read only (LINE %d)n", param->name, line_count);
- return FAILURE;
- }
- /* Parse right side of equation as an expression */
- current_wave = custom_wave;
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): equation evaluated to null (LINE %d)n", line_count);
- current_wave = NULL;
- return PARSE_ERROR;
- }
- current_wave = NULL;
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): [finished parsing equation] (LINE %d)n", line_count);
- /* Create a new per frame equation */
- if ((per_frame_eqn = new_per_frame_eqn(custom_wave->per_frame_count++, param, gen_expr)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): failed to create a new per frame eqn, out of memory?n");
- free_gen_expr(gen_expr);
- return FAILURE;
- }
- if (splay_insert(per_frame_eqn, &per_frame_eqn->index, custom_wave->per_frame_eqn_tree) < 0) {
- free_per_frame_eqn(per_frame_eqn);
- return FAILURE;
- }
- //if (PARSE_DEBUG) printf("parse_wave (per_frame): equation %d associated with custom wave %d [success]n",
- // per_frame_eqn->index, custom_wave->id);
- /* Need to add stuff to string buffer so the editor can read the equations.
- Why not make a nice little helper function for this? - here it is: */
- if (update_string_buffer(custom_wave->per_frame_eqn_string_buffer, &custom_wave->per_frame_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- /* per point equation case */
- if (!strncmp(eqn_type, PER_POINT_STRING, PER_POINT_STRING_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_wave (per_point): per_pixel equation parsing start...(LINE %d)n", line_count);
- if (parseToken(fs, string) != tEq) { /* parse per pixel operator name */
- //if (PARSE_DEBUG) printf("parse_wave (per_point): equal operator missing after per pixel operator! (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Parse right side of equation as an expression */
- current_wave = custom_wave;
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_wave (per_point): equation evaluated to null? (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- current_wave = NULL;
- /* Add the per point equation */
- if (add_per_point_eqn(string, gen_expr, custom_wave) < 0) {
- free_gen_expr(gen_expr);
- return PARSE_ERROR;
- }
- if (update_string_buffer(custom_wave->per_point_eqn_string_buffer, &custom_wave->per_point_eqn_string_index) < 0)
- return FAILURE;
- //if (PARSE_DEBUG) printf("parse_wave (per_point): [finished] (custom wave id = %d)n", custom_wave->id);
- return SUCCESS;
- }
- /* Syntax error, return parse error */
- return PARSE_ERROR;
- }
- /* Parses custom shape equations */
- int parse_shape(char * token, FILE * fs, preset_t * preset) {
- int id;
- char * eqn_type;
- char string[MAX_TOKEN_SIZE];
- param_t * param;
- per_frame_eqn_t * per_frame_eqn;
- gen_expr_t * gen_expr;
- custom_shape_t * custom_shape;
- init_cond_t * init_cond;
- if (token == NULL)
- return FAILURE;
- if (fs == NULL)
- return FAILURE;
- if (preset == NULL)
- return FAILURE;
- /* Grab custom shape id and equation type (per frame or per point) from string token */
- if (parse_shape_prefix(token, &id, &eqn_type) < 0) {
- //if (PARSE_DEBUG) printf("parse_shape: syntax error in custom shape prefix!n");
- return PARSE_ERROR;
- }
- /* Retrieve custom shape associated with this id */
- if ((custom_shape = find_custom_shape(id, preset, TRUE)) == NULL)
- return FAILURE;
- /* per frame init equation case */
- if (!strncmp(eqn_type, SHAPE_INIT_STRING, SHAPE_INIT_STRING_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_shape (per frame init): [begin] (LINE %d)n", line_count);
- /* Parse the per frame equation */
- if ((init_cond = parse_per_frame_init_eqn(fs, preset, custom_shape->param_tree)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shape (per frame init): equation parsing failed (LINE %d)n", line_count);
- return PARSE_ERROR;
- }
- /* Insert the equation in the per frame equation tree */
- if (splay_insert(init_cond, init_cond->param->name, custom_shape->per_frame_init_eqn_tree) < 0) {
- //if (PARSE_DEBUG) printf("parse_shape (per frame init): failed to add equation (ERROR)n");
- free_init_cond(init_cond); /* will free the gen expr too */
- return ERROR;
- }
- if (update_string_buffer(custom_shape->per_frame_init_eqn_string_buffer,
- &custom_shape->per_frame_init_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- /* per frame equation case */
- if (!strncmp(eqn_type, PER_FRAME_STRING_NO_UNDERSCORE, PER_FRAME_STRING_NO_UNDERSCORE_LENGTH)) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): [start] (custom shape id = %d)n", custom_shape->id);
- if (parseToken(fs, string) != tEq) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): no equal sign after string "%s" (LINE %d)n", string, line_count);
- return PARSE_ERROR;
- }
- /* Find the parameter associated with the string in the custom shape database */
- if ((param = find_param_db(string, custom_shape->param_tree, TRUE)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): parameter "%s" not found or cannot be malloc'ed!!n", string);
- return FAILURE;
- }
- /* Make sure parameter is writable */
- if (param->flags & P_FLAG_READONLY) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): parameter %s is marked as read only (LINE %d)n", param->name, line_count);
- return FAILURE;
- }
- /* Parse right side of equation as an expression */
- current_shape = custom_shape;
- if ((gen_expr = parse_gen_expr(fs, NULL, preset)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): equation evaluated to null (LINE %d)n", line_count);
- current_shape = NULL;
- return PARSE_ERROR;
- }
- current_shape = NULL;
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): [finished parsing equation] (LINE %d)n", line_count);
- /* Create a new per frame equation */
- if ((per_frame_eqn = new_per_frame_eqn(custom_shape->per_frame_count++, param, gen_expr)) == NULL) {
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): failed to create a new per frame eqn, out of memory?n");
- free_gen_expr(gen_expr);
- return FAILURE;
- }
- if (splay_insert(per_frame_eqn, &per_frame_eqn->index, custom_shape->per_frame_eqn_tree) < 0) {
- free_per_frame_eqn(per_frame_eqn);
- return FAILURE;
- }
- //if (PARSE_DEBUG) printf("parse_shape (per_frame): equation %d associated with custom shape %d [success]n",
- // per_frame_eqn->index, custom_shape->id);
- /* Need to add stuff to string buffer so the editor can read the equations.
- Why not make a nice little helper function for this? - here it is: */
- if (update_string_buffer(custom_shape->per_frame_eqn_string_buffer, &custom_shape->per_frame_eqn_string_index) < 0)
- return FAILURE;
- return SUCCESS;
- }
- /* Syntax error, return parse error */
- return PARSE_ERROR;
- }
- /* Helper function to update the string buffers used by the editor */
- int update_string_buffer(char * buffer, int * index) {
- int string_length;
- int skip_size;
- if (!buffer)
- return FAILURE;
- if (!index)
- return FAILURE;
- /* If the string line buffer used by the parser is already full then quit */
- if (string_line_buffer_index == (STRING_LINE_SIZE-1))
- return FAILURE;
- if ((skip_size = get_string_prefix_len(string_line_buffer)) == FAILURE)
- return FAILURE;
- string_line_buffer[string_line_buffer_index++] = 'n';
- // string_length = strlen(string_line_buffer + strlen(eqn_string)+1);
- if (skip_size >= STRING_LINE_SIZE)
- return FAILURE;
- string_length = strlen(string_line_buffer + skip_size);
- if (skip_size > (STRING_LINE_SIZE-1))
- return FAILURE;
- /* Add line to string buffer */
- strncpy(buffer + (*index),
- string_line_buffer + skip_size, string_length);
- /* Buffer full, quit */
- if ((*index) > (STRING_BUFFER_SIZE - 1)) {
- //if (PARSE_DEBUG) printf("update_string_buffer: string buffer full!n");
- return FAILURE;
- }
- /* Otherwise, increment string index by the added string length */
- (*index)+=string_length;
- return SUCCESS;
- }
- /* Helper function: returns the length of the prefix portion in the line
- buffer (the passed string here). In other words, given
- the string 'per_frame_1 = x = ....', return the length of 'per_frame_1 = '
- Returns -1 if syntax error
- */
- int get_string_prefix_len(char * string) {
- int i = 0;
- /* Null argument check */
- if (string == NULL)
- return FAILURE;
- /* First find the equal sign */
- while (string[i] != '=') {
- if (string[i] == 0)
- return FAILURE;
- i++;
- }
- /* If the string already ends at the next char then give up */
- if (string[i+1] == 0)
- return FAILURE;
- /* Move past the equal sign */
- i++;
- /* Now found the start of the LHS variable, ie skip the spaces */
- while(string[i] == ' ') {
- i++;
- }
- /* If this is the end of the string then its a syntax error */
- if (string[i] == 0)
- return FAILURE;
- /* Finished succesfully, return the length */
- return i;
- }