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//
// printing.c - Code for printing and visualizing matches.
//
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "printing.h"
#include "types.h"
#include "utils.h"
#include "vm.h"
typedef struct match_node_s {
match_t *m;
struct match_node_s *next;
} match_node_t;
typedef struct {
size_t line, printed_line;
const char *color;
} print_state_t;
__attribute__((nonnull, pure))
static int height_of_match(match_t *m);
__attribute__((nonnull))
static void _visualize_matches(match_node_t *firstmatch, int depth, const char *text, size_t textlen);
__attribute__((nonnull))
static void _visualize_patterns(match_t *m);
__attribute__((nonnull))
static void print_line_number(FILE *out, print_state_t *state, print_options_t options);
__attribute__((nonnull))
static void _print_match(FILE *out, file_t *f, match_t *m, print_state_t *state, print_options_t options);
//
// Return the height of a match object (i.e. the number of descendents of the
// structure).
//
static int height_of_match(match_t *m)
{
int height = 0;
for (match_t *c = m->child; c; c = c->nextsibling) {
int childheight = height_of_match(c);
if (childheight > height) height = childheight;
}
return 1 + height;
}
//
// Print a visual explanation for the as-yet-unprinted matches provided.
//
static void _visualize_matches(match_node_t *firstmatch, int depth, const char *text, size_t textlen)
{
const char *V = "│"; // Vertical bar
const char *H = "─"; // Horizontal bar
const char *color = (depth % 2 == 0) ? "34" : "33";
match_t *viz = firstmatch->m;
// This is a heuristic: print matches first if they have more submatches.
// In general, this helps reduce the height of the final output by allowing
// for more rows that show the same rule matching in multiple places.
// TODO: there may be a better heuristic that optimizes for this factor
// while also printing earlier matches first when it doesn't affect overall
// output height.
for (match_node_t *p = firstmatch; p; p = p->next)
if (height_of_match(p->m) > height_of_match(viz))
viz = p->m;
const char *viz_type = viz->op->start;
size_t viz_typelen = (size_t)(viz->op->end - viz->op->start);
// Backrefs use added dim quote marks to indicate that the pattern is a
// literal string being matched. (Backrefs have start/end inside the text
// input, instead of something the user typed in)
if (viz_type >= text && viz_type <= &text[textlen])
printf("\033[%ldG\033[0;2m\"\033[%s;1m", 2*textlen+3, color);
else
printf("\033[%ldG\033[%s;1m", 2*textlen+3, color);
for (size_t i = 0; i < viz_typelen; i++) {
switch (viz_type[i]) {
case '\n': printf("↵"); break;
default: printf("%c", viz_type[i]); break;
}
}
if (viz_type >= text && viz_type <= &text[textlen])
printf("\033[0;2m\"");
printf("\033[0m");
match_node_t *children = NULL;
match_node_t **nextchild = &children;
#define RIGHT_TYPE(m) (m->m->op->end == m->m->op->start + viz_typelen && strncmp(m->m->op->start, viz_type, viz_typelen) == 0)
// Print nonzero-width first:
for (match_node_t *m = firstmatch; m; m = m->next) {
//tree_text = byteslice(text, tree['start'], tree['end']).replace('\n', '↵')
if (RIGHT_TYPE(m)) {
//if (m->m->op->op != VM_REF) {
for (match_t *c = m->m->child; c; c = c->nextsibling) {
*nextchild = new(match_node_t);
(*nextchild)->m = c;
nextchild = &((*nextchild)->next);
}
//}
if (m->m->end == m->m->start) continue;
printf("\033[%ldG\033[0;2m%s\033[0;7;%sm", 1+2*(m->m->start - text), V, color);
for (const char *c = m->m->start; c < m->m->end; ++c) {
// TODO: newline
if (c > m->m->start) printf(" ");
// TODO: utf8
//while ((*c & 0xC0) != 0x80) printf("%c", *(c++));
printf("%c", *c);
}
printf("\033[0;2m%s\033[0m", V);
} else {
*nextchild = new(match_node_t);
(*nextchild)->m = m->m;
nextchild = &((*nextchild)->next);
printf("\033[%ldG\033[0;2m%s", 1+2*(m->m->start - text), V);
for (ssize_t i = (ssize_t)(2*(m->m->end - m->m->start)-1); i > 0; i--)
printf(" ");
if (m->m->end > m->m->start)
printf("\033[0;2m%s", V);
printf("\033[0m");
}
}
// Print stars for zero-width:
for (match_node_t *m = firstmatch; m; m = m->next) {
if (m->m->end > m->m->start) continue;
if (RIGHT_TYPE(m)) {
printf("\033[%ldG\033[7;%sm▒\033[0m", 1+2*(m->m->start - text), color);
} else {
printf("\033[%ldG\033[0;2m%s\033[0m", 1+2*(m->m->start - text), V);
}
}
printf("\n");
for (match_node_t *m = firstmatch; m; m = m->next) {
if (m->m->end == m->m->start) {
if (!RIGHT_TYPE(m))
printf("\033[%ldG\033[0;2m%s", 1 + 2*(m->m->start - text), V);
} else {
const char *l = "└";
const char *r = "┘";
for (match_node_t *c = children; c; c = c->next) {
if (c->m->start == m->m->start || c->m->end == m->m->start) l = V;
if (c->m->start == m->m->end || c->m->end == m->m->end) r = V;
}
printf("\033[%ldG\033[0;2m%s", 1 + 2*(m->m->start - text), l);
const char *h = RIGHT_TYPE(m) ? H : " ";
for (ssize_t n = (ssize_t)(2*(m->m->end - m->m->start) - 1); n > 0; n--)
printf("%s", h);
printf("%s\033[0m", r);
}
}
#undef RIGHT_TYPE
printf("\n");
if (children)
_visualize_matches(children, depth+1, text, textlen);
for (match_node_t *c = children, *next = NULL; c; c = next) {
next = c->next;
xfree(&c);
}
}
//
// Recursively look for references to a rule called "pattern" and print an
// explanation for each one.
//
static void _visualize_patterns(match_t *m)
{
if (m->op->type == VM_REF && streq(m->op->args.s, "pattern")) {
m = m->child;
match_node_t first = {.m = m};
_visualize_matches(&first, 0, m->start, (size_t)(m->end - m->start));
} else {
for (match_t *c = m->child; c; c = c->nextsibling)
_visualize_patterns(c);
}
}
//
// For a match object, print a visual explanation for each "pattern" matched
// inside it.
//
void visualize_match(match_t *m)
{
printf("\033[?7l");
_visualize_patterns(m);
printf("\033[?7h");
}
//
// Print a line number.
//
static void print_line_number(FILE *out, print_state_t *state, print_options_t options)
{
state->printed_line = state->line;
if (!(options & PRINT_LINE_NUMBERS)) return;
if (options & PRINT_COLOR)
fprintf(out, "\033[0;2m% 5ld\033(0\x78\033(B%s", state->line, state->color);
else
fprintf(out, "% 5ld|", state->line);
}
//
// Helper function for print_match(), using a struct to keep track of some state.
//
static void _print_match(FILE *out, file_t *f, match_t *m, print_state_t *state, print_options_t options)
{
static const char *hl = "\033[0;31;1m";
const char *old_color = state->color;
if (m->op->type == VM_HIDE) {
// TODO: handle replacements?
for (const char *p = m->start; p < m->end; p++) {
if (*p == '\n') ++state->line;
}
} else if (m->op->type == VM_REPLACE) {
if (options & PRINT_COLOR && state->color != hl) {
state->color = hl;
fprintf(out, "%s", state->color);
}
const char *text = m->op->args.replace.text;
const char *end = &text[m->op->args.replace.len];
for (const char *r = text; r < end; ) {
if (*r == '@' && r[1] && r[1] != '@') {
++r;
match_t *cap = get_capture(m, &r);
if (cap != NULL) {
_print_match(out, f, cap, state, options);
continue;
} else {
--r;
}
}
if (state->printed_line != state->line)
print_line_number(out, state, options);
if (*r == '\\') {
++r;
unsigned char c = unescapechar(r, &r);
fputc(c, out);
if (c == '\n') ++state->line;
continue;
} else if (*r == '\n') {
fputc('\n', out);
++state->line;
++r;
continue;
} else {
fputc(*r, out);
++r;
continue;
}
}
} else {
if (m->op->type == VM_CAPTURE) {
if (options & PRINT_COLOR && state->color != hl) {
state->color = hl;
fprintf(out, "%s", state->color);
}
}
const char *prev = m->start;
for (match_t *child = m->child; child; child = child->nextsibling) {
// Skip children from e.g. zero-width matches like >@foo
if (!(prev <= child->start && child->start <= m->end &&
prev <= child->end && child->end <= m->end))
continue;
if (child->start > prev) {
for (const char *p = prev; p < child->start; ++p) {
if (state->printed_line != state->line)
print_line_number(out, state, options);
fputc(*p, out);
if (*p == '\n') ++state->line;
}
}
_print_match(out, f, child, state, options);
prev = child->end;
}
if (m->end > prev) {
for (const char *p = prev; p < m->end; ++p) {
if (state->printed_line != state->line)
print_line_number(out, state, options);
fputc(*p, out);
if (*p == '\n') ++state->line;
}
}
}
if (options & PRINT_COLOR && old_color != state->color) {
fprintf(out, "%s", old_color);
state->color = old_color;
}
}
//
// Print a match with replacements and highlighting.
//
void print_match(FILE *out, file_t *f, match_t *m, print_options_t options)
{
print_state_t state = {.line = 1, .color = "\033[0m"};
_print_match(out, f, m, &state, options);
}
//
// Print any errors that are present in the given match object.
//
int print_errors(file_t *f, match_t *m, print_options_t options)
{
int ret = 0;
if (m->op->type == VM_CAPTURE && m->op->args.capture.name && streq(m->op->args.capture.name, "!")) {
printf("\033[31;1m");
print_match(stdout, f, m, options);
printf("\033[0m\n");
fprint_line(stdout, f, m->start, m->end, " ");
return 1;
}
if (m->child) ret += print_errors(f, m->child, options);
if (m->nextsibling) ret += print_errors(f, m->nextsibling, options);
return ret;
}
// vim: ts=4 sw=0 et cino=L2,l1,(0,W4,m1
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