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mpc.c
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mpc.c
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#include "mpc.h"
/*
** State Type
*/
static mpc_state_t mpc_state_invalid(void) {
mpc_state_t s;
s.pos = -1;
s.row = -1;
s.col = -1;
return s;
}
static mpc_state_t mpc_state_new(void) {
mpc_state_t s;
s.pos = 0;
s.row = 0;
s.col = 0;
return s;
}
static mpc_state_t *mpc_state_copy(mpc_state_t s) {
mpc_state_t *r = malloc(sizeof(mpc_state_t));
memcpy(r, &s, sizeof(mpc_state_t));
return r;
}
/*
** Error Type
*/
static mpc_err_t *mpc_err_new(const char *filename, mpc_state_t s, const char *expected, char recieved) {
mpc_err_t *x = malloc(sizeof(mpc_err_t));
x->filename = malloc(strlen(filename) + 1);
strcpy(x->filename, filename);
x->state = s;
x->expected_num = 1;
x->expected = malloc(sizeof(char*));
x->expected[0] = malloc(strlen(expected) + 1);
strcpy(x->expected[0], expected);
x->failure = NULL;
x->recieved = recieved;
return x;
}
static mpc_err_t *mpc_err_fail(const char *filename, mpc_state_t s, const char *failure) {
mpc_err_t *x = malloc(sizeof(mpc_err_t));
x->filename = malloc(strlen(filename) + 1);
strcpy(x->filename, filename);
x->state = s;
x->expected_num = 0;
x->expected = NULL;
x->failure = malloc(strlen(failure) + 1);
strcpy(x->failure, failure);
x->recieved = ' ';
return x;
}
void mpc_err_delete(mpc_err_t *x) {
int i;
for (i = 0; i < x->expected_num; i++) {
free(x->expected[i]);
}
free(x->expected);
free(x->filename);
free(x->failure);
free(x);
}
static int mpc_err_contains_expected(mpc_err_t *x, char *expected) {
int i;
for (i = 0; i < x->expected_num; i++) {
if (strcmp(x->expected[i], expected) == 0) { return 1; }
}
return 0;
}
static void mpc_err_add_expected(mpc_err_t *x, char *expected) {
x->expected_num++;
x->expected = realloc(x->expected, sizeof(char*) * x->expected_num);
x->expected[x->expected_num-1] = malloc(strlen(expected) + 1);
strcpy(x->expected[x->expected_num-1], expected);
}
static void mpc_err_clear_expected(mpc_err_t *x, char *expected) {
int i;
for (i = 0; i < x->expected_num; i++) {
free(x->expected[i]);
}
x->expected_num = 1;
x->expected = realloc(x->expected, sizeof(char*) * x->expected_num);
x->expected[0] = malloc(strlen(expected) + 1);
strcpy(x->expected[0], expected);
}
void mpc_err_print(mpc_err_t *x) {
mpc_err_print_to(x, stdout);
}
void mpc_err_print_to(mpc_err_t *x, FILE *f) {
char *str = mpc_err_string(x);
fprintf(f, "%s", str);
free(str);
}
void mpc_err_string_cat(char *buffer, int *pos, int *max, char const *fmt, ...) {
/* TODO: Error Checking on Length */
int left = ((*max) - (*pos));
va_list va;
va_start(va, fmt);
if (left < 0) { left = 0;}
(*pos) += vsprintf(buffer + (*pos), fmt, va);
va_end(va);
}
static char char_unescape_buffer[3];
static const char *mpc_err_char_unescape(char c) {
char_unescape_buffer[0] = '\'';
char_unescape_buffer[1] = ' ';
char_unescape_buffer[2] = '\'';
switch (c) {
case '\a': return "bell";
case '\b': return "backspace";
case '\f': return "formfeed";
case '\r': return "carriage return";
case '\v': return "vertical tab";
case '\0': return "end of input";
case '\n': return "newline";
case '\t': return "tab";
case ' ' : return "space";
default:
char_unescape_buffer[1] = c;
return char_unescape_buffer;
}
}
char *mpc_err_string(mpc_err_t *x) {
char *buffer = calloc(1, 1024);
int max = 1023;
int pos = 0;
int i;
if (x->failure) {
mpc_err_string_cat(buffer, &pos, &max,
"%s: error: %s\n", x->filename, x->failure);
return buffer;
}
mpc_err_string_cat(buffer, &pos, &max,
"%s:%i:%i: error: expected ", x->filename, x->state.row+1, x->state.col+1);
if (x->expected_num == 0) { mpc_err_string_cat(buffer, &pos, &max, "ERROR: NOTHING EXPECTED"); }
if (x->expected_num == 1) { mpc_err_string_cat(buffer, &pos, &max, "%s", x->expected[0]); }
if (x->expected_num >= 2) {
for (i = 0; i < x->expected_num-2; i++) {
mpc_err_string_cat(buffer, &pos, &max, "%s, ", x->expected[i]);
}
mpc_err_string_cat(buffer, &pos, &max, "%s or %s",
x->expected[x->expected_num-2],
x->expected[x->expected_num-1]);
}
mpc_err_string_cat(buffer, &pos, &max, " at ");
mpc_err_string_cat(buffer, &pos, &max, mpc_err_char_unescape(x->recieved));
mpc_err_string_cat(buffer, &pos, &max, "\n");
return realloc(buffer, strlen(buffer) + 1);
}
static mpc_err_t *mpc_err_or(mpc_err_t** x, int n) {
int i, j;
mpc_err_t *e = malloc(sizeof(mpc_err_t));
e->state = mpc_state_invalid();
e->expected_num = 0;
e->expected = NULL;
e->failure = NULL;
e->filename = malloc(strlen(x[0]->filename)+1);
strcpy(e->filename, x[0]->filename);
for (i = 0; i < n; i++) {
if (x[i]->state.pos > e->state.pos) { e->state = x[i]->state; }
}
for (i = 0; i < n; i++) {
if (x[i]->state.pos < e->state.pos) { continue; }
if (x[i]->failure) {
e->failure = malloc(strlen(x[i]->failure)+1);
strcpy(e->failure, x[i]->failure);
break;
}
e->recieved = x[i]->recieved;
for (j = 0; j < x[i]->expected_num; j++) {
if (!mpc_err_contains_expected(e, x[i]->expected[j])) { mpc_err_add_expected(e, x[i]->expected[j]); }
}
}
for (i = 0; i < n; i++) {
mpc_err_delete(x[i]);
}
return e;
}
static mpc_err_t *mpc_err_repeat(mpc_err_t *x, const char *prefix) {
int i;
char *expect = malloc(strlen(prefix) + 1);
strcpy(expect, prefix);
if (x->expected_num == 1) {
expect = realloc(expect, strlen(expect) + strlen(x->expected[0]) + 1);
strcat(expect, x->expected[0]);
}
if (x->expected_num > 1) {
for (i = 0; i < x->expected_num-2; i++) {
expect = realloc(expect, strlen(expect) + strlen(x->expected[i]) + strlen(", ") + 1);
strcat(expect, x->expected[i]);
strcat(expect, ", ");
}
expect = realloc(expect, strlen(expect) + strlen(x->expected[x->expected_num-2]) + strlen(" or ") + 1);
strcat(expect, x->expected[x->expected_num-2]);
strcat(expect, " or ");
expect = realloc(expect, strlen(expect) + strlen(x->expected[x->expected_num-1]) + 1);
strcat(expect, x->expected[x->expected_num-1]);
}
mpc_err_clear_expected(x, expect);
free(expect);
return x;
}
static mpc_err_t *mpc_err_many1(mpc_err_t *x) {
return mpc_err_repeat(x, "one or more of ");
}
static mpc_err_t *mpc_err_count(mpc_err_t *x, int n) {
mpc_err_t *y;
int digits = n/10 + 1;
char *prefix = malloc(digits + strlen(" of ") + 1);
sprintf(prefix, "%i of ", n);
y = mpc_err_repeat(x, prefix);
free(prefix);
return y;
}
/*
** Input Type
*/
/*
** In mpc the input type has three modes of
** operation: String, File and Pipe.
**
** String is easy. The whole contents are
** loaded into a buffer and scanned through.
** The cursor can jump around at will making
** backtracking easy.
**
** The second is a File which is also somewhat
** easy. The contents are never loaded into
** memory but backtracking can still be achieved
** by seeking in the file at different positions.
**
** The final mode is Pipe. This is the difficult
** one. As we assume pipes cannot be seeked - and
** only support a single character lookahead at
** any point, when the input is marked for a
** potential backtracking we start buffering any
** input.
**
** This means that if we are requested to seek
** back we can simply start reading from the
** buffer instead of the input.
**
** Of course using `mpc_predictive` will disable
** backtracking and make LL(1) grammars easy
** to parse for all input methods.
**
*/
enum {
MPC_INPUT_STRING = 0,
MPC_INPUT_FILE = 1,
MPC_INPUT_PIPE = 2
};
typedef struct {
int type;
char *filename;
mpc_state_t state;
char *string;
char *buffer;
FILE *file;
int backtrack;
int marks_num;
mpc_state_t* marks;
char* lasts;
char last;
} mpc_input_t;
static mpc_input_t *mpc_input_new_string(const char *filename, const char *string) {
mpc_input_t *i = malloc(sizeof(mpc_input_t));
i->filename = malloc(strlen(filename) + 1);
strcpy(i->filename, filename);
i->type = MPC_INPUT_STRING;
i->state = mpc_state_new();
i->string = malloc(strlen(string) + 1);
strcpy(i->string, string);
i->buffer = NULL;
i->file = NULL;
i->backtrack = 1;
i->marks_num = 0;
i->marks = NULL;
i->lasts = NULL;
i->last = '\0';
return i;
}
static mpc_input_t *mpc_input_new_pipe(const char *filename, FILE *pipe) {
mpc_input_t *i = malloc(sizeof(mpc_input_t));
i->filename = malloc(strlen(filename) + 1);
strcpy(i->filename, filename);
i->type = MPC_INPUT_PIPE;
i->state = mpc_state_new();
i->string = NULL;
i->buffer = NULL;
i->file = pipe;
i->backtrack = 1;
i->marks_num = 0;
i->marks = NULL;
i->lasts = NULL;
i->last = '\0';
return i;
}
static mpc_input_t *mpc_input_new_file(const char *filename, FILE *file) {
mpc_input_t *i = malloc(sizeof(mpc_input_t));
i->filename = malloc(strlen(filename) + 1);
strcpy(i->filename, filename);
i->type = MPC_INPUT_FILE;
i->state = mpc_state_new();
i->string = NULL;
i->buffer = NULL;
i->file = file;
i->backtrack = 1;
i->marks_num = 0;
i->marks = NULL;
i->lasts = NULL;
i->last = '\0';
return i;
}
static void mpc_input_delete(mpc_input_t *i) {
free(i->filename);
if (i->type == MPC_INPUT_STRING) { free(i->string); }
if (i->type == MPC_INPUT_PIPE) { free(i->buffer); }
free(i->marks);
free(i->lasts);
free(i);
}
static void mpc_input_backtrack_disable(mpc_input_t *i) { i->backtrack--; }
static void mpc_input_backtrack_enable(mpc_input_t *i) { i->backtrack++; }
static void mpc_input_mark(mpc_input_t *i) {
if (i->backtrack < 1) { return; }
i->marks_num++;
i->marks = realloc(i->marks, sizeof(mpc_state_t) * i->marks_num);
i->lasts = realloc(i->lasts, sizeof(char) * i->marks_num);
i->marks[i->marks_num-1] = i->state;
i->lasts[i->marks_num-1] = i->last;
if (i->type == MPC_INPUT_PIPE && i->marks_num == 1) {
i->buffer = calloc(1, 1);
}
}
static void mpc_input_unmark(mpc_input_t *i) {
if (i->backtrack < 1) { return; }
i->marks_num--;
i->marks = realloc(i->marks, sizeof(mpc_state_t) * i->marks_num);
i->lasts = realloc(i->lasts, sizeof(char) * i->marks_num);
if (i->type == MPC_INPUT_PIPE && i->marks_num == 0) {
free(i->buffer);
i->buffer = NULL;
}
}
static void mpc_input_rewind(mpc_input_t *i) {
if (i->backtrack < 1) { return; }
i->state = i->marks[i->marks_num-1];
i->last = i->lasts[i->marks_num-1];
if (i->type == MPC_INPUT_FILE) {
fseek(i->file, i->state.pos, SEEK_SET);
}
mpc_input_unmark(i);
}
static int mpc_input_buffer_in_range(mpc_input_t *i) {
return i->state.pos < (long)(strlen(i->buffer) + i->marks[0].pos);
}
static char mpc_input_buffer_get(mpc_input_t *i) {
return i->buffer[i->state.pos - i->marks[0].pos];
}
static int mpc_input_terminated(mpc_input_t *i) {
if (i->type == MPC_INPUT_STRING && i->state.pos == (long)strlen(i->string)) { return 1; }
if (i->type == MPC_INPUT_FILE && feof(i->file)) { return 1; }
if (i->type == MPC_INPUT_PIPE && feof(i->file)) { return 1; }
return 0;
}
static char mpc_input_getc(mpc_input_t *i) {
char c = '\0';
switch (i->type) {
case MPC_INPUT_STRING: return i->string[i->state.pos];
case MPC_INPUT_FILE: c = fgetc(i->file); return c;
case MPC_INPUT_PIPE:
if (!i->buffer) { c = getc(i->file); return c; }
if (i->buffer && mpc_input_buffer_in_range(i)) {
c = mpc_input_buffer_get(i);
return c;
} else {
c = getc(i->file);
return c;
}
default: return c;
}
}
static char mpc_input_peekc(mpc_input_t *i) {
char c = '\0';
switch (i->type) {
case MPC_INPUT_STRING: return i->string[i->state.pos];
case MPC_INPUT_FILE:
c = fgetc(i->file);
if (feof(i->file)) { return '\0'; }
fseek(i->file, -1, SEEK_CUR);
return c;
case MPC_INPUT_PIPE:
if (!i->buffer) {
c = getc(i->file);
if (feof(i->file)) { return '\0'; }
ungetc(c, i->file);
return c;
}
if (i->buffer && mpc_input_buffer_in_range(i)) {
return mpc_input_buffer_get(i);
} else {
c = getc(i->file);
if (feof(i->file)) { return '\0'; }
ungetc(c, i->file);
return c;
}
default: return c;
}
}
static int mpc_input_failure(mpc_input_t *i, char c) {
switch (i->type) {
case MPC_INPUT_STRING: { break; }
case MPC_INPUT_FILE: fseek(i->file, -1, SEEK_CUR); { break; }
case MPC_INPUT_PIPE: {
if (!i->buffer) { ungetc(c, i->file); break; }
if (i->buffer && mpc_input_buffer_in_range(i)) {
break;
} else {
ungetc(c, i->file);
}
}
default: { break; }
}
return 0;
}
static int mpc_input_success(mpc_input_t *i, char c, char **o) {
if (i->type == MPC_INPUT_PIPE &&
i->buffer &&
!mpc_input_buffer_in_range(i)) {
i->buffer = realloc(i->buffer, strlen(i->buffer) + 2);
i->buffer[strlen(i->buffer) + 1] = '\0';
i->buffer[strlen(i->buffer) + 0] = c;
}
i->last = c;
i->state.pos++;
i->state.col++;
if (c == '\n') {
i->state.col = 0;
i->state.row++;
}
if (o) {
(*o) = malloc(2);
(*o)[0] = c;
(*o)[1] = '\0';
}
return 1;
}
static int mpc_input_any(mpc_input_t *i, char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return mpc_input_success(i, x, o);
}
static int mpc_input_char(mpc_input_t *i, char c, char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return x == c ? mpc_input_success(i, x, o) : mpc_input_failure(i, x);
}
static int mpc_input_range(mpc_input_t *i, char c, char d, char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return x >= c && x <= d ? mpc_input_success(i, x, o) : mpc_input_failure(i, x);
}
static int mpc_input_oneof(mpc_input_t *i, const char *c, char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return strchr(c, x) != 0 ? mpc_input_success(i, x, o) : mpc_input_failure(i, x);
}
static int mpc_input_noneof(mpc_input_t *i, const char *c, char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return strchr(c, x) == 0 ? mpc_input_success(i, x, o) : mpc_input_failure(i, x);
}
static int mpc_input_satisfy(mpc_input_t *i, int(*cond)(char), char **o) {
char x = mpc_input_getc(i);
if (mpc_input_terminated(i)) { return 0; }
return cond(x) ? mpc_input_success(i, x, o) : mpc_input_failure(i, x);
}
static int mpc_input_string(mpc_input_t *i, const char *c, char **o) {
char *co = NULL;
const char *x = c;
mpc_input_mark(i);
while (*x) {
if (mpc_input_char(i, *x, &co)) {
free(co);
} else {
mpc_input_rewind(i);
return 0;
}
x++;
}
mpc_input_unmark(i);
*o = malloc(strlen(c) + 1);
strcpy(*o, c);
return 1;
}
static int mpc_input_anchor(mpc_input_t* i, int(*f)(char,char)) {
return f(i->last, mpc_input_peekc(i));
}
/*
** Parser Type
*/
enum {
MPC_TYPE_UNDEFINED = 0,
MPC_TYPE_PASS = 1,
MPC_TYPE_FAIL = 2,
MPC_TYPE_LIFT = 3,
MPC_TYPE_LIFT_VAL = 4,
MPC_TYPE_EXPECT = 5,
MPC_TYPE_ANCHOR = 6,
MPC_TYPE_STATE = 7,
MPC_TYPE_ANY = 8,
MPC_TYPE_SINGLE = 9,
MPC_TYPE_ONEOF = 10,
MPC_TYPE_NONEOF = 11,
MPC_TYPE_RANGE = 12,
MPC_TYPE_SATISFY = 13,
MPC_TYPE_STRING = 14,
MPC_TYPE_APPLY = 15,
MPC_TYPE_APPLY_TO = 16,
MPC_TYPE_PREDICT = 17,
MPC_TYPE_NOT = 18,
MPC_TYPE_MAYBE = 19,
MPC_TYPE_MANY = 20,
MPC_TYPE_MANY1 = 21,
MPC_TYPE_COUNT = 22,
MPC_TYPE_OR = 23,
MPC_TYPE_AND = 24
};
typedef struct { char *m; } mpc_pdata_fail_t;
typedef struct { mpc_ctor_t lf; void *x; } mpc_pdata_lift_t;
typedef struct { mpc_parser_t *x; char *m; } mpc_pdata_expect_t;
typedef struct { int(*f)(char,char); } mpc_pdata_anchor_t;
typedef struct { char x; } mpc_pdata_single_t;
typedef struct { char x; char y; } mpc_pdata_range_t;
typedef struct { int(*f)(char); } mpc_pdata_satisfy_t;
typedef struct { char *x; } mpc_pdata_string_t;
typedef struct { mpc_parser_t *x; mpc_apply_t f; } mpc_pdata_apply_t;
typedef struct { mpc_parser_t *x; mpc_apply_to_t f; void *d; } mpc_pdata_apply_to_t;
typedef struct { mpc_parser_t *x; } mpc_pdata_predict_t;
typedef struct { mpc_parser_t *x; mpc_dtor_t dx; mpc_ctor_t lf; } mpc_pdata_not_t;
typedef struct { int n; mpc_fold_t f; mpc_parser_t *x; mpc_dtor_t dx; } mpc_pdata_repeat_t;
typedef struct { int n; mpc_parser_t **xs; } mpc_pdata_or_t;
typedef struct { int n; mpc_fold_t f; mpc_parser_t **xs; mpc_dtor_t *dxs; } mpc_pdata_and_t;
typedef union {
mpc_pdata_fail_t fail;
mpc_pdata_lift_t lift;
mpc_pdata_expect_t expect;
mpc_pdata_anchor_t anchor;
mpc_pdata_single_t single;
mpc_pdata_range_t range;
mpc_pdata_satisfy_t satisfy;
mpc_pdata_string_t string;
mpc_pdata_apply_t apply;
mpc_pdata_apply_to_t apply_to;
mpc_pdata_predict_t predict;
mpc_pdata_not_t not;
mpc_pdata_repeat_t repeat;
mpc_pdata_and_t and;
mpc_pdata_or_t or;
} mpc_pdata_t;
struct mpc_parser_t {
char retained;
char *name;
char type;
mpc_pdata_t data;
};
/*
** Stack Type
*/
typedef struct {
int parsers_num;
int parsers_slots;
mpc_parser_t **parsers;
int *states;
int results_num;
int results_slots;
mpc_result_t *results;
int *returns;
mpc_err_t *err;
} mpc_stack_t;
static mpc_stack_t *mpc_stack_new(const char *filename) {
mpc_stack_t *s = malloc(sizeof(mpc_stack_t));
s->parsers_num = 0;
s->parsers_slots = 0;
s->parsers = NULL;
s->states = NULL;
s->results_num = 0;
s->results_slots = 0;
s->results = NULL;
s->returns = NULL;
s->err = mpc_err_fail(filename, mpc_state_invalid(), "Unknown Error");
return s;
}
static void mpc_stack_err(mpc_stack_t *s, mpc_err_t* e) {
mpc_err_t *errs[2];
errs[0] = s->err;
errs[1] = e;
s->err = mpc_err_or(errs, 2);
}
static int mpc_stack_terminate(mpc_stack_t *s, mpc_result_t *r) {
int success = s->returns[0];
if (success) {
r->output = s->results[0].output;
mpc_err_delete(s->err);
} else {
mpc_stack_err(s, s->results[0].error);
r->error = s->err;
}
free(s->parsers);
free(s->states);
free(s->results);
free(s->returns);
free(s);
return success;
}
/* Stack Parser Stuff */
static void mpc_stack_set_state(mpc_stack_t *s, int x) {
s->states[s->parsers_num-1] = x;
}
static void mpc_stack_parsers_reserve_more(mpc_stack_t *s) {
if (s->parsers_num > s->parsers_slots) {
s->parsers_slots = ceil((s->parsers_slots+1) * 1.5);
s->parsers = realloc(s->parsers, sizeof(mpc_parser_t*) * s->parsers_slots);
s->states = realloc(s->states, sizeof(int) * s->parsers_slots);
}
}
static void mpc_stack_parsers_reserve_less(mpc_stack_t *s) {
if (s->parsers_slots > pow(s->parsers_num+1, 1.5)) {
s->parsers_slots = floor((s->parsers_slots-1) * (1.0/1.5));
s->parsers = realloc(s->parsers, sizeof(mpc_parser_t*) * s->parsers_slots);
s->states = realloc(s->states, sizeof(int) * s->parsers_slots);
}
}
static void mpc_stack_pushp(mpc_stack_t *s, mpc_parser_t *p) {
s->parsers_num++;
mpc_stack_parsers_reserve_more(s);
s->parsers[s->parsers_num-1] = p;
s->states[s->parsers_num-1] = 0;
}
static void mpc_stack_popp(mpc_stack_t *s, mpc_parser_t **p, int *st) {
*p = s->parsers[s->parsers_num-1];
*st = s->states[s->parsers_num-1];
s->parsers_num--;
mpc_stack_parsers_reserve_less(s);
}
static void mpc_stack_peepp(mpc_stack_t *s, mpc_parser_t **p, int *st) {
*p = s->parsers[s->parsers_num-1];
*st = s->states[s->parsers_num-1];
}
static int mpc_stack_empty(mpc_stack_t *s) {
return s->parsers_num == 0;
}
/* Stack Result Stuff */
static mpc_result_t mpc_result_err(mpc_err_t *e) {
mpc_result_t r;
r.error = e;
return r;
}
static mpc_result_t mpc_result_out(mpc_val_t *x) {
mpc_result_t r;
r.output = x;
return r;
}
static void mpc_stack_results_reserve_more(mpc_stack_t *s) {
if (s->results_num > s->results_slots) {
s->results_slots = ceil((s->results_slots + 1) * 1.5);
s->results = realloc(s->results, sizeof(mpc_result_t) * s->results_slots);
s->returns = realloc(s->returns, sizeof(int) * s->results_slots);
}
}
static void mpc_stack_results_reserve_less(mpc_stack_t *s) {
if ( s->results_slots > pow(s->results_num+1, 1.5)) {
s->results_slots = floor((s->results_slots-1) * (1.0/1.5));
s->results = realloc(s->results, sizeof(mpc_result_t) * s->results_slots);
s->returns = realloc(s->returns, sizeof(int) * s->results_slots);
}
}
static void mpc_stack_pushr(mpc_stack_t *s, mpc_result_t x, int r) {
s->results_num++;
mpc_stack_results_reserve_more(s);
s->results[s->results_num-1] = x;
s->returns[s->results_num-1] = r;
}
static int mpc_stack_popr(mpc_stack_t *s, mpc_result_t *x) {
int r;
*x = s->results[s->results_num-1];
r = s->returns[s->results_num-1];
s->results_num--;
mpc_stack_results_reserve_less(s);
return r;
}
static int mpc_stack_peekr(mpc_stack_t *s, mpc_result_t *x) {
*x = s->results[s->results_num-1];
return s->returns[s->results_num-1];
}
static void mpc_stack_popr_err(mpc_stack_t *s, int n) {
mpc_result_t x;
while (n) {
mpc_stack_popr(s, &x);
mpc_stack_err(s, x.error);
n--;
}
}
static void mpc_stack_popr_out(mpc_stack_t *s, int n, mpc_dtor_t *ds) {
mpc_result_t x;
while (n) {
mpc_stack_popr(s, &x);
ds[n-1](x.output);
n--;
}
}
static void mpc_stack_popr_out_single(mpc_stack_t *s, int n, mpc_dtor_t dx) {
mpc_result_t x;
while (n) {
mpc_stack_popr(s, &x);
dx(x.output);
n--;
}
}
static void mpc_stack_popr_n(mpc_stack_t *s, int n) {
mpc_result_t x;
while (n) {
mpc_stack_popr(s, &x);
n--;
}
}
static mpc_val_t *mpc_stack_merger_out(mpc_stack_t *s, int n, mpc_fold_t f) {
mpc_val_t *x = f(n, (mpc_val_t**)(&s->results[s->results_num-n]));
mpc_stack_popr_n(s, n);
return x;
}
static mpc_err_t *mpc_stack_merger_err(mpc_stack_t *s, int n) {
mpc_err_t *x = mpc_err_or((mpc_err_t**)(&s->results[s->results_num-n]), n);
mpc_stack_popr_n(s, n);
return x;
}
/*
** This is rather pleasant. The core parsing routine
** is written in about 200 lines of C.
**
** I also love the way in which each parsing type
** concisely matches some construct or pattern.
**
** Particularly nice are the `or` and `and`
** types which have a broken but mirrored structure
** with return value and error reflected.
**
** When this function was written in recursive form
** it looked pretty nice. But I've since switched
** it around to an awkward while loop. It was an
** unfortunate change for code simplicity but it
** is noble in the name of performance (and
** not smashing the stack).
**
** But it is now a pretty ugly beast...
*/
#define MPC_CONTINUE(st, x) mpc_stack_set_state(stk, st); mpc_stack_pushp(stk, x); continue
#define MPC_SUCCESS(x) mpc_stack_popp(stk, &p, &st); mpc_stack_pushr(stk, mpc_result_out(x), 1); continue
#define MPC_FAILURE(x) mpc_stack_popp(stk, &p, &st); mpc_stack_pushr(stk, mpc_result_err(x), 0); continue
#define MPC_PRIMITIVE(x, f) if (f) { MPC_SUCCESS(x); } else { MPC_FAILURE(mpc_err_fail(i->filename, i->state, "Incorrect Input")); }
int mpc_parse_input(mpc_input_t *i, mpc_parser_t *init, mpc_result_t *final) {
/* Stack */
int st = 0;
mpc_parser_t *p = NULL;
mpc_stack_t *stk = mpc_stack_new(i->filename);
/* Variables */
char *s;
mpc_result_t r;
/* Go! */
mpc_stack_pushp(stk, init);
while (!mpc_stack_empty(stk)) {
mpc_stack_peepp(stk, &p, &st);
switch (p->type) {
/* Basic Parsers */
case MPC_TYPE_ANY: MPC_PRIMITIVE(s, mpc_input_any(i, &s));
case MPC_TYPE_SINGLE: MPC_PRIMITIVE(s, mpc_input_char(i, p->data.single.x, &s));
case MPC_TYPE_RANGE: MPC_PRIMITIVE(s, mpc_input_range(i, p->data.range.x, p->data.range.y, &s));
case MPC_TYPE_ONEOF: MPC_PRIMITIVE(s, mpc_input_oneof(i, p->data.string.x, &s));
case MPC_TYPE_NONEOF: MPC_PRIMITIVE(s, mpc_input_noneof(i, p->data.string.x, &s));
case MPC_TYPE_SATISFY: MPC_PRIMITIVE(s, mpc_input_satisfy(i, p->data.satisfy.f, &s));
case MPC_TYPE_STRING: MPC_PRIMITIVE(s, mpc_input_string(i, p->data.string.x, &s));
/* Other parsers */
case MPC_TYPE_UNDEFINED: MPC_FAILURE(mpc_err_fail(i->filename, i->state, "Parser Undefined!"));
case MPC_TYPE_PASS: MPC_SUCCESS(NULL);
case MPC_TYPE_FAIL: MPC_FAILURE(mpc_err_fail(i->filename, i->state, p->data.fail.m));
case MPC_TYPE_LIFT: MPC_SUCCESS(p->data.lift.lf());
case MPC_TYPE_LIFT_VAL: MPC_SUCCESS(p->data.lift.x);