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// :build command
// also handles :shell.
#include "ted-internal.h"
void build_stop(Ted *ted) {
if (ted->building)
process_kill(&ted->build_process);
ted->building = false;
ted->build_shown = false;
arr_foreach_ptr(ted->build_errors, BuildError, err) {
free(err->path);
}
arr_clear(ted->build_errors);
arr_foreach_ptr(ted->build_queue, char *, cmd) {
free(*cmd);
}
arr_clear(ted->build_queue);
if (ted->active_buffer == ted->build_buffer) {
ted_switch_to_buffer(ted, NULL);
ted_reset_active_buffer(ted);
}
}
void build_queue_start(Ted *ted) {
build_stop(ted);
}
void build_queue_command(Ted *ted, const char *command) {
char *copy = str_dup(command);
if (copy)
arr_add(ted->build_queue, copy);
}
// returns true if there are still commands left in the queue
static bool build_run_next_command_in_queue(Ted *ted) {
if (!ted->build_queue)
return false;
assert(!ted->build_process);
assert(*ted->build_dir);
change_directory(ted->build_dir);
char *command = ted->build_queue[0];
arr_remove(ted->build_queue, 0);
if (ted_save_all(ted)) {
ted->build_process = process_run(command);
const char *error = process_geterr(ted->build_process);
if (!error) {
ted->building = true;
ted->build_shown = true;
TextBuffer *build_buffer = ted->build_buffer;
char32_t text[] = {'$', ' '};
buffer_insert_text_at_cursor(build_buffer, str32(text, 2));
buffer_insert_utf8_at_cursor(build_buffer, command);
buffer_insert_char_at_cursor(build_buffer, '\n');
build_buffer->view_only = true;
free(command);
return true;
} else {
ted_error(ted, "Couldn't start build: %s", error);
build_stop(ted);
return false;
}
} else {
build_stop(ted);
return false;
}
}
void build_setup_buffer(Ted *ted) {
// new empty build output buffer
TextBuffer *build_buffer = ted->build_buffer;
buffer_new_file(build_buffer, NULL);
build_buffer->store_undo_events = false; // don't need undo events for build output buffer
}
void build_queue_finish(Ted *ted) {
build_setup_buffer(ted);
build_run_next_command_in_queue(ted); // run the first command
}
void build_start_with_command(Ted *ted, const char *command) {
build_queue_start(ted);
build_queue_command(ted, command);
build_queue_finish(ted);
}
void build_start(Ted *ted) {
Settings *settings = ted_active_settings(ted);
char *command = settings->build_command;
char *root = ted_get_root_dir(ted);
strbuf_cpy(ted->build_dir, root);
if (*command == 0) {
command = settings->build_default_command;
change_directory(root);
#if _WIN32
if (fs_file_exists("make.bat")) {
command = "make.bat";
} else
#endif
if (fs_file_exists("Cargo.toml")) {
command = "cargo build";
} else if (fs_file_exists("Makefile")) {
command = "make -j16";
} else if (fs_file_exists("go.mod")) {
command = "go build";
}
}
free(root);
if (*command)
build_start_with_command(ted, command);
}
static void build_go_to_error(Ted *ted) {
if (ted->build_error < arr_len(ted->build_errors)) {
BuildError error = ted->build_errors[ted->build_error];
// open the file where the error happened
if (ted_open_file(ted, error.path)) {
TextBuffer *buffer = ted->active_buffer;
assert(buffer);
u32 index = error.column;
if (error.columns_per_tab > 1) {
// get correct index
String32 line = buffer_get_line(buffer, error.line);
u32 column = 0;
index = 0;
while (column < error.column) {
if (index >= line.len)
break;
if (line.str[index] == '\t') {
column += error.columns_per_tab;
} else {
column += 1;
}
++index;
}
}
BufferPos pos = {
.line = error.line,
.index = index,
};
// move cursor to error
buffer_cursor_move_to_pos(buffer, pos);
buffer->center_cursor_next_frame = true;
// move cursor to error in build output
TextBuffer *build_buffer = ted->build_buffer;
BufferPos error_pos = {.line = error.build_output_line, .index = 0};
buffer_cursor_move_to_pos(build_buffer, error_pos);
buffer_center_cursor(build_buffer);
}
}
}
void build_next_error(Ted *ted) {
if (ted->build_errors) {
ted->build_error += 1;
ted->build_error %= arr_len(ted->build_errors);
build_go_to_error(ted);
}
}
void build_prev_error(Ted *ted) {
if (ted->build_errors) {
ted->build_error += arr_len(ted->build_errors) - 1;
ted->build_error %= arr_len(ted->build_errors);
build_go_to_error(ted);
}
}
// returns -1 if *str..end is not an integer or a negative integer.
// Otherwise, advances *str past the number and returns it.
static int parse_nonnegative_integer(char32_t **str, char32_t *end) {
char32_t *s = *str;
int number_len;
int n = 0;
for (number_len = 0; s != end && s[number_len] >= '0' && s[number_len] <= '9'; ++number_len) {
n *= 10;
n += (int)s[number_len] - '0';
}
if (number_len == 0)
return -1;
*str += number_len;
return n;
}
// could this character (reasonably) appear in a source file path?
static bool is_source_path(char32_t c) {
const char *allowed_ascii_symbols_in_path = "./\\-_:";
return c > CHAR_MAX || is32_alnum((wint_t)c)
|| strchr(allowed_ascii_symbols_in_path, (char)c);
}
// make sure you set ted->build_dir before running this!
void build_check_for_errors(Ted *ted) {
const Settings *settings = ted_active_settings(ted);
TextBuffer *buffer = ted->build_buffer;
arr_clear(ted->build_errors);
for (u32 line_idx = 0; line_idx < buffer->nlines; ++line_idx) {
String32 line = buffer_get_line(buffer, line_idx);
if (line.len < 3) {
continue;
}
bool is_error = true;
// well, for a bit of time i thought rust was weird
// and treated tabs as 4 columns
// apparently its just a bug, which ive filed here
// https://github.com/rust-lang/rust/issues/109537
// we could treat ::: references as 4-columns-per-tab,
// but then that would be wrong if the bug gets fixed.
// all this is to say that columns_per_tab is currently always 1,
// but might be useful at some point.
u8 columns_per_tab = 1;
char32_t *p = line.str, *end = p + line.len;
{
// rust errors look like:
// " --> file:line:column"
// and can also include stuff like
// " ::: file:line:column"
while (p != end && *p == ' ') {
++p;
}
if (end - p >= 4) {
String32 first4 = str32(p, 4);
if (str32_cmp_ascii(first4, "::: ") == 0 || str32_cmp_ascii(first4, "--> ") == 0) {
p += 4;
}
}
}
// check if we have something like main.c:5 or main.c(5)
// get file name
char32_t *filename_start = p;
while (p != end) {
if ((*p == ':' || *p == '(')
&& p != line.str + 1) // don't catch "C:\thing\whatever.c" as "filename: C, line number: \thing\whatever.c"
break;
if (!is_source_path(*p)) {
is_error = false;
break;
}
++p;
}
if (p == end) is_error = false;
u32 filename_len = (u32)(p - filename_start);
if (filename_len == 0) is_error = false;
if (is_error) {
++p; // move past : or (
int line_number = parse_nonnegative_integer(&p, end);
if (p != end && line_number > 0) {
// it's an error
line_number -= 1; // line numbers in output start from 1.
int column_number = 0;
// check if there's a column number
if (*p == ':') {
++p; // move past :
int num = parse_nonnegative_integer(&p, end);
if (num > 0) {
column_number = num - 1; // column numbers in output start from 1
}
}
char *filename = str32_to_utf8_cstr(str32(filename_start, filename_len));
if (filename) {
char full_path[TED_PATH_MAX];
const char *pfilename = filename;
path_full(ted->build_dir, pfilename, full_path, sizeof full_path);
// if the file does not exist, try stripping ../
// this can solve "file not found" problems if your build command involves
// cd'ing to a directory inside build_dir
while (fs_path_type(full_path) == FS_NON_EXISTENT
&& (str_has_prefix(pfilename, "../")
#if _WIN32
|| str_has_prefix(pfilename, "..\\")
#endif
)) {
pfilename += 3;
path_full(ted->build_dir, pfilename, full_path, sizeof full_path);
}
BuildError error = {
.path = str_dup(full_path),
.line = (u32)line_number,
.column = (u32)column_number,
.columns_per_tab = columns_per_tab,
.build_output_line = line_idx
};
arr_add(ted->build_errors, error);
free(filename);
}
}
}
}
if (settings->jump_to_build_error) {
// go to the first error (if there is one)
ted->build_error = 0;
build_go_to_error(ted);
}
}
void build_frame(Ted *ted, float x1, float y1, float x2, float y2) {
TextBuffer *buffer = ted->build_buffer;
assert(ted->build_shown);
char buf[256];
if (ted->building) {
buffer->view_only = false; // disable view only temporarily so we can edit it
bool any_text_inserted = false;
while (1) {
char incomplete[4];
memcpy(incomplete, ted->build_incomplete_codepoint, sizeof incomplete);
*ted->build_incomplete_codepoint = 0;
i64 bytes_read = (i64)process_read(ted->build_process, buf + 3, sizeof buf - 3);
if (bytes_read == -2) {
ted_error(ted, "Error reading command output: %s.", process_geterr(ted->build_process));
build_stop(ted);
break;
} else if (bytes_read == -1) {
// no data right now.
break;
} else if (bytes_read == 0) {
// end of file
break;
} else {
any_text_inserted = true;
// got some data.
char *p = buf + 3 - strlen(incomplete);
char *end = buf + 3 + bytes_read;
// start off data with incomplete code point from last time
memcpy(p, incomplete, strlen(incomplete));
while (p != end) {
char32_t c = 0;
size_t ret = unicode_utf8_to_utf32(&c, p, (size_t)(end - p));
if (ret == (size_t)-1) {
// invalid UTF-8. skip this byte.
++p;
} else if (ret == (size_t)-2) {
// incomplete UTF-8
size_t leftovers = (size_t)(end - p);
assert(leftovers < 4);
memcpy(ted->build_incomplete_codepoint, p, leftovers);
ted->build_incomplete_codepoint[leftovers] = '\0';
p = end;
} else {
if (ret == 0) ret = 1;
// got a code point
buffer_insert_char_at_pos(buffer, buffer_pos_end_of_file(buffer), c);
p += ret;
}
}
}
}
if (any_text_inserted) {
// show bottom of output (only relevant if there are no build errors)
buffer->cursor_pos = buffer_pos_end_of_file(buffer);
buffer_scroll_to_cursor(buffer);
}
ProcessExitInfo info = {0};
int status = process_check_status(&ted->build_process, &info);
if (status == 0) {
// hasn't exited yet
} else {
buffer_insert_utf8_at_cursor(buffer, info.message);
buffer_insert_utf8_at_cursor(buffer, "\n");
if (!build_run_next_command_in_queue(ted)) {
ted->building = false;
// done command queue; check for errors
build_check_for_errors(ted);
}
}
buffer->view_only = true;
}
buffer_render(buffer, rect4(x1, y1, x2, y2));
}
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