/* * Copyright (c) 2012 Sean Bartell * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * - The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** @addtogroup bithenge * @{ */ /** * @file * Script parsing. */ #include #include #include #include "expression.h" #include "os.h" #include "script.h" #include "sequence.h" #include "transform.h" #include "tree.h" /** Tokens with more characters than this may be read incorrectly. */ #define MAX_TOKEN_SIZE 256 #define BUFFER_SIZE 4096 /** Single-character symbols are represented by the character itself. Every * other token uses one of these values: */ typedef enum { TOKEN_ERROR = -128, TOKEN_EOF, TOKEN_IDENTIFIER, TOKEN_INTEGER, TOKEN_LEFT_ARROW, /* Keywords */ TOKEN_ELSE, TOKEN_FALSE, TOKEN_IF, TOKEN_STRUCT, TOKEN_SWITCH, TOKEN_TRANSFORM, TOKEN_TRUE, } token_type_t; /** Singly-linked list of named transforms. */ typedef struct transform_list { char *name; bithenge_transform_t *transform; struct transform_list *next; } transform_list_t; /** State kept by the parser. */ typedef struct { /** Rather than constantly checking return values, the parser uses this * to indicate whether an error has occurred. */ int error; /** The list of named transforms. */ transform_list_t *transform_list; /** The name of the script file. */ const char *filename; /** The script file being read from. */ FILE *file; /** The buffer that holds script code. There is always a '\0' after the * current position to prevent reading too far. */ char buffer[BUFFER_SIZE]; /** The start position within the buffer of the next unread token. */ size_t buffer_pos; /** The start position within the buffer of the current token. */ size_t old_buffer_pos; /** The line number of the current token. */ int lineno; /** Added to a buffer position to find the column number. */ int line_offset; /** The type of the current token. */ token_type_t token; union { /** The value of a TOKEN_IDENTIFIER token. Unless changed to * NULL, it will be freed when the next token is read. */ char *token_string; /** The value of a TOKEN_INTEGER token. */ bithenge_int_t token_int; }; /** The names of the current transform's parameters. */ char **parameter_names; /** The number of parameters. */ int num_params; } state_t; /** Free the previous token's data. This must be called before changing * state->token. */ static void done_with_token(state_t *state) { if (state->token == TOKEN_IDENTIFIER) free(state->token_string); state->token = TOKEN_ERROR; } /** Note that an error has occurred if error is not EOK. */ static void error_errno(state_t *state, int error) { // Don't overwrite a previous error. if (state->error == EOK && error != EOK) { done_with_token(state); state->token = TOKEN_ERROR; state->error = error; } } /** Note that a syntax error has occurred and print an error message. */ static void syntax_error(state_t *state, const char *message) { // Printing multiple errors is confusing. if (state->error == EOK) { size_t start_char = state->old_buffer_pos + state->line_offset; size_t end_char = state->buffer_pos + state->line_offset; size_t size = end_char - start_char; fprintf(stderr, "%s:%d:", state->filename, state->lineno); if (size <= 1) fprintf(stderr, "%zd: ", start_char); else fprintf(stderr, "%zd-%zd: ", start_char, end_char - 1); fprintf(stderr, "%s: \"%.*s\"\n", message, (int)size, state->buffer + state->old_buffer_pos); error_errno(state, EINVAL); } } /** Ensure the buffer contains enough characters to read a token. */ static void fill_buffer(state_t *state) { if (state->buffer_pos + MAX_TOKEN_SIZE < BUFFER_SIZE) return; size_t empty_size = state->buffer_pos; size_t used_size = BUFFER_SIZE - 1 - state->buffer_pos; memmove(state->buffer, state->buffer + state->buffer_pos, used_size); state->line_offset += state->buffer_pos; state->buffer_pos = 0; size_t read_size = fread(state->buffer + used_size, 1, empty_size, state->file); if (ferror(state->file)) error_errno(state, EIO); state->buffer[used_size + read_size] = '\0'; } /** Read the next token. */ static void next_token(state_t *state) { fill_buffer(state); done_with_token(state); state->old_buffer_pos = state->buffer_pos; char ch = state->buffer[state->buffer_pos]; if (ch == '\0') { state->token = TOKEN_EOF; } else if (ch == '#') { while (state->buffer[state->buffer_pos] != '\n' && state->buffer[state->buffer_pos] != '\0') { state->buffer_pos++; fill_buffer(state); } next_token(state); return; } else if (isspace(ch)) { // Will eventually reach the '\0' at the end while (isspace(state->buffer[state->buffer_pos])) { if (state->buffer[state->buffer_pos] == '\n') { state->lineno++; state->line_offset = -state->buffer_pos; } state->buffer_pos++; } next_token(state); return; } else if (isalpha(ch)) { while (isalnum(state->buffer[state->buffer_pos]) || state->buffer[state->buffer_pos] == '_') state->buffer_pos++; char *value = str_ndup(state->buffer + state->old_buffer_pos, state->buffer_pos - state->old_buffer_pos); if (!value) { error_errno(state, ENOMEM); } else if (!str_cmp(value, "else")) { state->token = TOKEN_ELSE; free(value); } else if (!str_cmp(value, "false")) { state->token = TOKEN_FALSE; free(value); } else if (!str_cmp(value, "if")) { state->token = TOKEN_IF; free(value); } else if (!str_cmp(value, "struct")) { state->token = TOKEN_STRUCT; free(value); } else if (!str_cmp(value, "switch")) { state->token = TOKEN_SWITCH; free(value); } else if (!str_cmp(value, "transform")) { state->token = TOKEN_TRANSFORM; free(value); } else if (!str_cmp(value, "true")) { state->token = TOKEN_TRUE; free(value); } else { state->token = TOKEN_IDENTIFIER; state->token_string = value; } } else if (isdigit(ch)) { while (isdigit(state->buffer[state->buffer_pos])) state->buffer_pos++; state->token = TOKEN_INTEGER; int rc = bithenge_parse_int(state->buffer + state->old_buffer_pos, &state->token_int); error_errno(state, rc); } else if (ch == '<') { state->token = ch; state->buffer_pos++; if (state->buffer[state->buffer_pos] == '-') { state->buffer_pos++; state->token = TOKEN_LEFT_ARROW; } } else { state->token = ch; state->buffer_pos++; } } /** Allocate memory and handle failure by setting the error in the state. The * caller must check the state for errors before using the return value of this * function. */ static void *state_malloc(state_t *state, size_t size) { if (state->error != EOK) return NULL; void *result = malloc(size); if (result == NULL) error_errno(state, ENOMEM); return result; } /** Reallocate memory and handle failure by setting the error in the state. If * an error occurs, the existing pointer will be returned. */ static void *state_realloc(state_t *state, void *ptr, size_t size) { if (state->error != EOK) return ptr; void *result = realloc(ptr, size); if (result == NULL) { error_errno(state, ENOMEM); return ptr; } return result; } /** Expect and consume a certain token. If the next token is of the wrong type, * an error is caused. */ static void expect(state_t *state, token_type_t type) { if (state->token != type) { syntax_error(state, "unexpected"); return; } next_token(state); } /** Expect and consume an identifier token. If the next token is not an * identifier, an error is caused and this function returns null. */ static char *expect_identifier(state_t *state) { if (state->token != TOKEN_IDENTIFIER) { syntax_error(state, "unexpected (identifier expected)"); return NULL; } char *val = state->token_string; state->token_string = NULL; next_token(state); return val; } /** Find a transform by name. A reference will be added to the transform. * @return The found transform, or NULL if none was found. */ static bithenge_transform_t *get_named_transform(state_t *state, const char *name) { for (transform_list_t *e = state->transform_list; e; e = e->next) { if (!str_cmp(e->name, name)) { bithenge_transform_inc_ref(e->transform); return e->transform; } } for (int i = 0; bithenge_primitive_transforms[i].name; i++) { if (!str_cmp(bithenge_primitive_transforms[i].name, name)) { bithenge_transform_t *xform = bithenge_primitive_transforms[i].transform; bithenge_transform_inc_ref(xform); return xform; } } return NULL; } /** Add a named transform. This function takes ownership of the name and a * reference to the transform. If an error has occurred, either may be null. */ static void add_named_transform(state_t *state, bithenge_transform_t *xform, char *name) { transform_list_t *entry = state_malloc(state, sizeof(*entry)); if (state->error != EOK) { free(name); bithenge_transform_dec_ref(xform); free(entry); return; } entry->name = name; entry->transform = xform; entry->next = state->transform_list; state->transform_list = entry; } static bithenge_transform_t *parse_transform(state_t *state); static bithenge_transform_t *parse_struct(state_t *state); static bithenge_expression_t *parse_expression(state_t *state) { if (state->token == TOKEN_TRUE || state->token == TOKEN_FALSE) { bool val = state->token == TOKEN_TRUE; next_token(state); bithenge_node_t *node; int rc = bithenge_new_boolean_node(&node, val); if (rc != EOK) { error_errno(state, rc); return NULL; } bithenge_expression_t *expr; rc = bithenge_const_expression(&expr, node); if (rc != EOK) { error_errno(state, rc); return NULL; } return expr; } else if (state->token == TOKEN_INTEGER) { bithenge_int_t val = state->token_int; next_token(state); bithenge_node_t *node; int rc = bithenge_new_integer_node(&node, val); if (rc != EOK) { error_errno(state, rc); return NULL; } bithenge_expression_t *expr; rc = bithenge_const_expression(&expr, node); if (rc != EOK) { error_errno(state, rc); return NULL; } return expr; } else if (state->token == TOKEN_IDENTIFIER) { int i; for (i = 0; i < state->num_params; i++) if (!str_cmp(state->parameter_names[i], state->token_string)) break; if (i == state->num_params) { syntax_error(state, "unknown identifier"); return NULL; } bithenge_expression_t *expr; int rc = bithenge_param_expression(&expr, i); if (rc != EOK) { error_errno(state, rc); return NULL; } next_token(state); return expr; } else if (state->token == '.') { next_token(state); const char *id = expect_identifier(state); bithenge_node_t *key = NULL; bithenge_expression_t *expr = NULL; int rc = bithenge_current_node_expression(&expr); error_errno(state, rc); if (state->error == EOK) { rc = bithenge_new_string_node(&key, id, true); id = NULL; error_errno(state, rc); } if (state->error == EOK) { rc = bithenge_member_expression(&expr, expr, key); key = NULL; if (rc != EOK) expr = NULL; error_errno(state, rc); } if (state->error != EOK) { free((char *)id); bithenge_node_dec_ref(key); bithenge_expression_dec_ref(expr); return NULL; } return expr; } else { syntax_error(state, "expression expected"); return NULL; } } // state->token must be TOKEN_IDENTIFIER when this is called static bithenge_transform_t *parse_invocation(state_t *state) { bithenge_transform_t *result = get_named_transform(state, state->token_string); if (!result) syntax_error(state, "transform not found"); next_token(state); bithenge_expression_t **params = NULL; int num_params = 0; if (state->token == '(') { next_token(state); while (state->error == EOK && state->token != ')') { if (num_params) expect(state, ','); params = state_realloc(state, params, (num_params + 1)*sizeof(*params)); if (state->error != EOK) break; params[num_params] = parse_expression(state); num_params++; } expect(state, ')'); } /* TODO: show correct error position */ if (state->error == EOK && bithenge_transform_num_params(result) != num_params) syntax_error(state, "incorrect number of parameters before"); if (state->error != EOK) { while (num_params--) bithenge_expression_dec_ref(params[num_params]); free(params); bithenge_transform_dec_ref(result); return NULL; } if (num_params) { int rc = bithenge_param_wrapper(&result, result, params); if (rc != EOK) { error_errno(state, rc); result = NULL; } } return result; } /** Create a transform that just produces an empty node. * @param state The parser state. * @return The new transform, or NULL on error. */ static bithenge_transform_t *make_empty_transform(state_t *state) { bithenge_node_t *node; int rc = bithenge_new_empty_internal_node(&node); if (rc != EOK) { error_errno(state, rc); return NULL; } bithenge_expression_t *expr; rc = bithenge_const_expression(&expr, node); if (rc != EOK) { error_errno(state, rc); return NULL; } bithenge_transform_t *xform; rc = bithenge_expression_transform(&xform, expr); if (rc != EOK) { error_errno(state, rc); return NULL; } return xform; } static bithenge_transform_t *parse_if(state_t *state, bool in_struct) { expect(state, TOKEN_IF); expect(state, '('); bithenge_expression_t *expr = parse_expression(state); expect(state, ')'); expect(state, '{'); bithenge_transform_t *true_xform = in_struct ? parse_struct(state) : parse_transform(state); expect(state, '}'); bithenge_transform_t *false_xform = NULL; if (state->token == TOKEN_ELSE) { next_token(state); expect(state, '{'); false_xform = in_struct ? parse_struct(state) : parse_transform(state); expect(state, '}'); } else { if (in_struct) false_xform = make_empty_transform(state); else syntax_error(state, "else expected"); } if (state->error != EOK) { bithenge_expression_dec_ref(expr); bithenge_transform_dec_ref(true_xform); bithenge_transform_dec_ref(false_xform); return NULL; } bithenge_transform_t *if_xform; int rc = bithenge_if_transform(&if_xform, expr, true_xform, false_xform); if (rc != EOK) { error_errno(state, rc); return NULL; } return if_xform; } static bithenge_transform_t *parse_switch(state_t *state, bool in_struct) { expect(state, TOKEN_SWITCH); expect(state, '('); bithenge_expression_t *ref_expr = parse_expression(state); expect(state, ')'); expect(state, '{'); int num = 0; bithenge_expression_t **exprs = NULL; bithenge_transform_t **xforms = NULL; while (state->error == EOK && state->token != '}') { bithenge_expression_t *expr; if (state->token == TOKEN_ELSE) { next_token(state); bithenge_node_t *node; int rc = bithenge_new_boolean_node(&node, true); if (rc != EOK) { error_errno(state, rc); break; } rc = bithenge_const_expression(&expr, node); if (rc != EOK) { error_errno(state, rc); break; } } else { expr = parse_expression(state); if (state->error == EOK) { bithenge_expression_inc_ref(ref_expr); int rc = bithenge_binary_expression(&expr, BITHENGE_EXPRESSION_EQUALS, ref_expr, expr); if (rc != EOK) { error_errno(state, rc); break; } } } expect(state, ':'); bithenge_transform_t *xform; if (in_struct) { expect(state, '{'); xform = parse_struct(state); expect(state, '}'); } else xform = parse_transform(state); expect(state, ';'); exprs = state_realloc(state, exprs, sizeof(*exprs) * (num + 1)); xforms = state_realloc(state, xforms, sizeof(*xforms) * (num + 1)); if (state->error != EOK) { bithenge_expression_dec_ref(expr); bithenge_transform_dec_ref(xform); break; } exprs[num] = expr; xforms[num] = xform; num++; } bithenge_expression_dec_ref(ref_expr); bithenge_transform_t *switch_xform = &bithenge_invalid_transform; bithenge_transform_inc_ref(switch_xform); while (state->error == EOK && num >= 1) { num--; int rc = bithenge_if_transform(&switch_xform, exprs[num], xforms[num], switch_xform); if (rc != EOK) error_errno(state, rc); } while (num >= 1) { num--; bithenge_expression_dec_ref(exprs[num]); bithenge_transform_dec_ref(xforms[num]); } free(exprs); free(xforms); expect(state, '}'); return switch_xform; } /* The TOKEN_STRUCT and '{' must already have been skipped. */ static bithenge_transform_t *parse_struct(state_t *state) { size_t num = 0; bithenge_named_transform_t *subxforms; /* We keep an extra space for the {NULL, NULL} terminator. */ subxforms = state_malloc(state, sizeof(*subxforms)); while (state->error == EOK && state->token != '}') { if (state->token == TOKEN_IF) { subxforms[num].transform = parse_if(state, true); subxforms[num].name = NULL; } else if (state->token == TOKEN_SWITCH) { subxforms[num].transform = parse_switch(state, true); subxforms[num].name = NULL; } else { if (state->token == '.') { next_token(state); subxforms[num].name = expect_identifier(state); } else { subxforms[num].name = NULL; } expect(state, TOKEN_LEFT_ARROW); subxforms[num].transform = parse_transform(state); expect(state, ';'); } num++; subxforms = state_realloc(state, subxforms, (num + 1)*sizeof(*subxforms)); } if (state->error != EOK) { while (num--) { free((void *)subxforms[num].name); bithenge_transform_dec_ref(subxforms[num].transform); } free(subxforms); return NULL; } subxforms[num].name = NULL; subxforms[num].transform = NULL; bithenge_transform_t *result; int rc = bithenge_new_struct(&result, subxforms); if (rc != EOK) { error_errno(state, rc); return NULL; } return result; } /** Parse a transform without composition. * @return The parsed transform, or NULL if an error occurred. */ static bithenge_transform_t *parse_transform_no_compose(state_t *state) { if (state->token == TOKEN_IDENTIFIER) { return parse_invocation(state); } else if (state->token == TOKEN_IF) { return parse_if(state, false); } else if (state->token == TOKEN_STRUCT) { next_token(state); expect(state, '{'); bithenge_transform_t *xform = parse_struct(state); expect(state, '}'); return xform; } else if (state->token == TOKEN_SWITCH) { return parse_switch(state, false); } else { syntax_error(state, "unexpected (transform expected)"); return NULL; } } /** Parse a transform. * @return The parsed transform, or NULL if an error occurred. */ static bithenge_transform_t *parse_transform(state_t *state) { bithenge_transform_t *result = parse_transform_no_compose(state); bithenge_transform_t **xforms = NULL; size_t num = 1; while (state->token == TOKEN_LEFT_ARROW) { expect(state, TOKEN_LEFT_ARROW); xforms = state_realloc(state, xforms, (num + 1) * sizeof(*xforms)); if (state->error != EOK) break; xforms[num] = parse_transform_no_compose(state); num++; } if (state->error != EOK) { while (xforms && num--) bithenge_transform_dec_ref(xforms[num]); free(xforms); bithenge_transform_dec_ref(result); return NULL; } if (xforms) { xforms[0] = result; int rc = bithenge_new_composed_transform(&result, xforms, num); if (rc != EOK) { error_errno(state, rc); return NULL; } } return result; } /** Parse a definition. */ static void parse_definition(state_t *state) { expect(state, TOKEN_TRANSFORM); char *name = expect_identifier(state); if (state->token == '(') { next_token(state); while (state->error == EOK && state->token != ')') { if (state->num_params) expect(state, ','); state->parameter_names = state_realloc(state, state->parameter_names, (state->num_params + 1)*sizeof(*state->parameter_names)); if (state->error != EOK) break; state->parameter_names[state->num_params++] = expect_identifier(state); } expect(state, ')'); } expect(state, '='); bithenge_transform_t *xform = parse_transform(state); expect(state, ';'); if (state->error == EOK) { int rc = bithenge_new_scope_transform(&xform, xform, state->num_params); if (rc != EOK) { xform = NULL; error_errno(state, rc); } } add_named_transform(state, xform, name); for (int i = 0; i < state->num_params; i++) free(state->parameter_names[i]); free(state->parameter_names); state->parameter_names = NULL; state->num_params = 0; } /** Initialize the state. */ static void state_init(state_t *state, const char *filename) { state->error = EOK; state->transform_list = NULL; state->parameter_names = NULL; state->num_params = 0; state->token = TOKEN_ERROR; state->old_buffer_pos = state->buffer_pos = BUFFER_SIZE - 1; state->lineno = 1; state->line_offset = (int)-state->buffer_pos + 1; state->filename = filename; state->file = fopen(filename, "r"); if (!state->file) { error_errno(state, errno); } else { next_token(state); } } /** Destroy the state. */ static void state_destroy(state_t *state) { done_with_token(state); state->token = TOKEN_ERROR; if (state->file) fclose(state->file); transform_list_t *entry = state->transform_list; while (entry) { transform_list_t *next = entry->next; free(entry->name); bithenge_transform_dec_ref(entry->transform); free(entry); entry = next; } for (int i = 0; i < state->num_params; i++) free(state->parameter_names[i]); free(state->parameter_names); } /** Parse a script file. * @param filename The name of the script file. * @param[out] out Stores the "main" transform. * @return EOK on success, EINVAL on syntax error, or an error code from * errno.h. */ int bithenge_parse_script(const char *filename, bithenge_transform_t **out) { state_t state; state_init(&state, filename); while (state.error == EOK && state.token != TOKEN_EOF) parse_definition(&state); *out = get_named_transform(&state, "main"); int rc = state.error; state_destroy(&state); if (rc == EOK && !*out) { fprintf(stderr, "no \"main\" transform\n"); rc = EINVAL; } return rc; } /** @} */