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mirror of https://github.com/vlang/v.git synced 2023-08-10 21:13:21 +03:00
v/compiler/live.v
Delyan Angelov 2b087dbf95 backtraces: add source line numbers too on linux
* Add source line numbers to backtraces on linux.

* Fix -g (broken after token caching).

* reset the #line directives after all the v code is compiled

* cleanup p.cgen.line setting inside p.next() .

* Support windows filepaths like "C:\Users\travis\build\vlang\v\v.exe.tmp.c" inside generated #line directives.

* Try to diagnose better windows-gcc failing.

* Revert "Try to diagnose better windows-gcc failing."

* implement and use cescaped_path/1 .

* Use cescaped_path/1 consistently throughout compiler/ .
2019-10-12 00:04:42 +03:00

218 lines
5.3 KiB
V

module main
import os
import time
fn (v &V) generate_hotcode_reloading_compiler_flags() []string {
mut a := []string
if v.pref.is_live || v.pref.is_so {
// See 'man dlopen', and test running a GUI program compiled with -live
if (v.os == .linux || os.user_os() == 'linux'){
a << '-rdynamic'
}
if (v.os == .mac || os.user_os() == 'mac'){
a << '-flat_namespace'
}
}
return a
}
fn (v &V) generate_hotcode_reloading_declarations() {
mut cgen := v.cgen
if v.os != .windows && v.os != .msvc {
if v.pref.is_so {
cgen.genln('pthread_mutex_t live_fn_mutex;')
}
if v.pref.is_live {
cgen.genln('pthread_mutex_t live_fn_mutex = PTHREAD_MUTEX_INITIALIZER;')
}
} else {
if v.pref.is_so {
cgen.genln('HANDLE live_fn_mutex;')
}
if v.pref.is_live {
cgen.genln('HANDLE live_fn_mutex = 0;')
}
}
}
fn (v &V) generate_hotcode_reloading_main_caller() {
if !v.pref.is_live { return }
// We are in live code reload mode, so start the .so loader in the background
mut cgen := v.cgen
cgen.genln('')
file_base := os.filename(v.dir).replace('.v', '')
if !(v.os == .windows || v.os == .msvc) {
// unix:
so_name := file_base + '.so'
cgen.genln(' char *live_library_name = "$so_name";')
cgen.genln(' load_so(live_library_name);')
cgen.genln(' pthread_t _thread_so;')
cgen.genln(' pthread_create(&_thread_so , NULL, &reload_so, live_library_name);')
} else {
// windows:
so_name := file_base + if v.os == .msvc {'.dll'} else {'.so'}
cgen.genln(' char *live_library_name = "$so_name";')
cgen.genln(' live_fn_mutex = CreateMutexA(0, 0, 0);')
cgen.genln(' load_so(live_library_name);')
cgen.genln(' unsigned long _thread_so;')
cgen.genln(' _thread_so = CreateThread(0, 0, (LPTHREAD_START_ROUTINE)&reload_so, 0, 0, 0);')
}
}
fn (v &V) generate_hot_reload_code() {
mut cgen := v.cgen
// Hot code reloading
if v.pref.is_live {
mut file := os.realpath(v.dir)
file_base := os.filename(file).replace('.v', '')
so_name := file_base + '.so'
// Need to build .so file before building the live application
// The live app needs to load this .so file on initialization.
mut vexe := os.args[0]
if os.user_os() == 'windows' {
vexe = cescaped_path(vexe)
file = cescaped_path(file)
}
mut msvc := ''
if v.os == .msvc {
msvc = '-os msvc'
}
mut debug := ''
if v.pref.is_debug {
debug = '-debug'
}
cmd_compile_shared_library := '$vexe $msvc $debug -o $file_base -shared $file'
if v.pref.show_c_cmd {
println(cmd_compile_shared_library)
}
ticks := time.ticks()
os.system(cmd_compile_shared_library)
diff := time.ticks() - ticks
println('compiling shared library took $diff ms')
println('=========\n')
cgen.genln('
void lfnmutex_print(char *s){
if(0){
fflush(stderr);
fprintf(stderr,">> live_fn_mutex: %p | %s\\n", &live_fn_mutex, s);
fflush(stderr);
}
}
')
if v.os != .windows && v.os != .msvc {
cgen.genln('
#include <dlfcn.h>
void* live_lib=0;
int load_so(byteptr path) {
char cpath[1024];
sprintf(cpath,"./%s", path);
//printf("load_so %s\\n", cpath);
if (live_lib) dlclose(live_lib);
live_lib = dlopen(cpath, RTLD_LAZY);
if (!live_lib) {
puts("open failed");
exit(1);
return 0;
}
')
for so_fn in cgen.so_fns {
cgen.genln('$so_fn = dlsym(live_lib, "$so_fn"); ')
}
}
else {
cgen.genln('
void* live_lib=0;
int load_so(byteptr path) {
char cpath[1024];
sprintf(cpath, "./%s", path);
if (live_lib) FreeLibrary(live_lib);
live_lib = LoadLibraryA(cpath);
if (!live_lib) {
puts("open failed");
exit(1);
return 0;
}
')
for so_fn in cgen.so_fns {
cgen.genln('$so_fn = (void *)GetProcAddress(live_lib, "$so_fn"); ')
}
}
cgen.genln('return 1;
}
int _live_reloads = 0;
void reload_so() {
char new_so_base[1024];
char new_so_name[1024];
char compile_cmd[1024];
int last = os__file_last_mod_unix(tos2("$file"));
while (1) {
// TODO use inotify
int now = os__file_last_mod_unix(tos2("$file"));
if (now != last) {
last = now;
_live_reloads++;
//v -o bounce -shared bounce.v
sprintf(new_so_base, ".tmp.%d.${file_base}", _live_reloads);
#ifdef _WIN32
// We have to make this directory becuase windows WILL NOT
// do it for us
os__mkdir(string_all_before_last(tos2(new_so_base), tos2("/")));
#endif
#ifdef _MSC_VER
sprintf(new_so_name, "%s.dll", new_so_base);
#else
sprintf(new_so_name, "%s.so", new_so_base);
#endif
sprintf(compile_cmd, "$vexe $msvc -o %s -shared $file", new_so_base);
os__system(tos2(compile_cmd));
if( !os__file_exists(tos2(new_so_name)) ) {
fprintf(stderr, "Errors while compiling $file\\n");
continue;
}
lfnmutex_print("reload_so locking...");
pthread_mutex_lock(&live_fn_mutex);
lfnmutex_print("reload_so locked");
live_lib = 0; // hack: force skipping dlclose/1, the code may be still used...
load_so(new_so_name);
#ifndef _WIN32
unlink(new_so_name); // removing the .so file from the filesystem after dlopen-ing it is safe, since it will still be mapped in memory.
#else
_unlink(new_so_name);
#endif
//if(0 == rename(new_so_name, "${so_name}")){
// load_so("${so_name}");
//}
lfnmutex_print("reload_so unlocking...");
pthread_mutex_unlock(&live_fn_mutex);
lfnmutex_print("reload_so unlocked");
}
time__sleep_ms(100);
}
}
' )
}
if v.pref.is_so {
cgen.genln(' int load_so(byteptr path) { return 0; }')
}
}