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mirror of https://github.com/janet-lang/janet synced 2024-11-24 17:27:18 +00:00

Merge branch 'master' into ev

This commit is contained in:
Calvin Rose 2020-08-23 11:25:04 -05:00
commit 86e00e865e
15 changed files with 241 additions and 77 deletions

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@ -3,6 +3,10 @@ All notable changes to this project will be documented in this file.
## Unreleased - ???
- Silence warnings in some compilers.
- Allow passing a second argument to `disasm`.
- Add `cancel`. Resumes a fiber but makes it immediately error at the yield point.
- Allow multi-line paste into built in repl.
- Add `(curenv)`.
- Change `net/read`, `net/chunk`, and `net/write` to raise errors in the case of failures.
- Add `janet_continue_signal` to C API. This indirectly enables C functions that yield to the event loop
to raise errors or other signals.
@ -16,7 +20,7 @@ All notable changes to this project will be documented in this file.
- Expose `janet_cryptorand` in C API.
- Properly initialize PRF in default janet program
- Add `index-of` to core library.
- Add `-fPIC` back to core CFLAGS (non-optional when compiling default client with Makefile)
- Add `-fPIC` back to core CFLAGS (non-optional when compiling default client with Makefile)
- Fix defaults on Windows for ARM
- Fix defaults on NetBSD.

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@ -2069,6 +2069,14 @@
(if ec "\e[0m" "")))
(eflush))
(defn curenv
"Get the current environment table. Same as (fiber/getenv (fiber/current)). If n
is provided, gets the nth prototype of the environment table."
[&opt n]
(var e (fiber/getenv (fiber/current)))
(if n (repeat n (if (= nil e) (break)) (set e (table/getproto e))))
e)
(defn run-context
"Run a context. This evaluates expressions in an environment,
and is encapsulates the parsing, compilation, and evaluation.

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@ -58,6 +58,7 @@
/* #define JANET_NO_UMASK */
/* Other settings */
/* #define JANET_DEBUG */
/* #define JANET_PRF */
/* #define JANET_NO_UTC_MKTIME */
/* #define JANET_OUT_OF_MEMORY do { printf("janet out of memory\n"); exit(1); } while (0) */

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@ -73,6 +73,7 @@ static const JanetInstructionDef janet_ops[] = {
{"call", JOP_CALL},
{"clo", JOP_CLOSURE},
{"cmp", JOP_COMPARE},
{"cncl", JOP_CANCEL},
{"div", JOP_DIVIDE},
{"divim", JOP_DIVIDE_IMMEDIATE},
{"eq", JOP_EQUALS},
@ -840,85 +841,110 @@ Janet janet_asm_decode_instruction(uint32_t instr) {
return janet_wrap_nil();
}
Janet janet_disasm(JanetFuncDef *def) {
int32_t i;
/*
* Disasm sections
*/
static Janet janet_disasm_arity(JanetFuncDef *def) {
return janet_wrap_integer(def->arity);
}
static Janet janet_disasm_min_arity(JanetFuncDef *def) {
return janet_wrap_integer(def->min_arity);
}
static Janet janet_disasm_max_arity(JanetFuncDef *def) {
return janet_wrap_integer(def->max_arity);
}
static Janet janet_disasm_slotcount(JanetFuncDef *def) {
return janet_wrap_integer(def->slotcount);
}
static Janet janet_disasm_bytecode(JanetFuncDef *def) {
JanetArray *bcode = janet_array(def->bytecode_length);
JanetArray *constants;
JanetTable *ret = janet_table(10);
janet_table_put(ret, janet_ckeywordv("arity"), janet_wrap_integer(def->arity));
janet_table_put(ret, janet_ckeywordv("min-arity"), janet_wrap_integer(def->min_arity));
janet_table_put(ret, janet_ckeywordv("max-arity"), janet_wrap_integer(def->max_arity));
janet_table_put(ret, janet_ckeywordv("bytecode"), janet_wrap_array(bcode));
if (NULL != def->source) {
janet_table_put(ret, janet_ckeywordv("source"), janet_wrap_string(def->source));
}
if (def->flags & JANET_FUNCDEF_FLAG_VARARG) {
janet_table_put(ret, janet_ckeywordv("vararg"), janet_wrap_true());
}
if (NULL != def->name) {
janet_table_put(ret, janet_ckeywordv("name"), janet_wrap_string(def->name));
}
/* Add constants */
if (def->constants_length > 0) {
constants = janet_array(def->constants_length);
janet_table_put(ret, janet_ckeywordv("constants"), janet_wrap_array(constants));
for (i = 0; i < def->constants_length; i++) {
constants->data[i] = def->constants[i];
}
constants->count = def->constants_length;
}
/* Add bytecode */
for (i = 0; i < def->bytecode_length; i++) {
for (int32_t i = 0; i < def->bytecode_length; i++) {
bcode->data[i] = janet_asm_decode_instruction(def->bytecode[i]);
}
bcode->count = def->bytecode_length;
return janet_wrap_array(bcode);
}
/* Add source map */
if (NULL != def->sourcemap) {
JanetArray *sourcemap = janet_array(def->bytecode_length);
for (i = 0; i < def->bytecode_length; i++) {
Janet *t = janet_tuple_begin(2);
JanetSourceMapping mapping = def->sourcemap[i];
t[0] = janet_wrap_integer(mapping.line);
t[1] = janet_wrap_integer(mapping.column);
sourcemap->data[i] = janet_wrap_tuple(janet_tuple_end(t));
}
sourcemap->count = def->bytecode_length;
janet_table_put(ret, janet_ckeywordv("sourcemap"), janet_wrap_array(sourcemap));
static Janet janet_disasm_source(JanetFuncDef *def) {
if (def->source != NULL) return janet_wrap_string(def->source);
return janet_wrap_nil();
}
static Janet janet_disasm_name(JanetFuncDef *def) {
if (def->name != NULL) return janet_wrap_string(def->name);
return janet_wrap_nil();
}
static Janet janet_disasm_vararg(JanetFuncDef *def) {
return janet_wrap_boolean(def->flags & JANET_FUNCDEF_FLAG_VARARG);
}
static Janet janet_disasm_constants(JanetFuncDef *def) {
JanetArray *constants = janet_array(def->constants_length);
for (int32_t i = 0; i < def->constants_length; i++) {
constants->data[i] = def->constants[i];
}
constants->count = def->constants_length;
return janet_wrap_array(constants);
}
/* Add environments */
if (NULL != def->environments) {
JanetArray *envs = janet_array(def->environments_length);
for (i = 0; i < def->environments_length; i++) {
envs->data[i] = janet_wrap_integer(def->environments[i]);
}
envs->count = def->environments_length;
janet_table_put(ret, janet_ckeywordv("environments"), janet_wrap_array(envs));
static Janet janet_disasm_sourcemap(JanetFuncDef *def) {
if (NULL == def->sourcemap) return janet_wrap_nil();
JanetArray *sourcemap = janet_array(def->bytecode_length);
for (int32_t i = 0; i < def->bytecode_length; i++) {
Janet *t = janet_tuple_begin(2);
JanetSourceMapping mapping = def->sourcemap[i];
t[0] = janet_wrap_integer(mapping.line);
t[1] = janet_wrap_integer(mapping.column);
sourcemap->data[i] = janet_wrap_tuple(janet_tuple_end(t));
}
sourcemap->count = def->bytecode_length;
return janet_wrap_array(sourcemap);
}
/* Add closures */
/* Funcdefs cannot be recursive */
if (NULL != def->defs) {
JanetArray *defs = janet_array(def->defs_length);
for (i = 0; i < def->defs_length; i++) {
defs->data[i] = janet_disasm(def->defs[i]);
}
defs->count = def->defs_length;
janet_table_put(ret, janet_ckeywordv("defs"), janet_wrap_array(defs));
static Janet janet_disasm_environments(JanetFuncDef *def) {
JanetArray *envs = janet_array(def->environments_length);
for (int32_t i = 0; i < def->environments_length; i++) {
envs->data[i] = janet_wrap_integer(def->environments[i]);
}
envs->count = def->environments_length;
return janet_wrap_array(envs);
}
/* Add slotcount */
janet_table_put(ret, janet_ckeywordv("slotcount"), janet_wrap_integer(def->slotcount));
static Janet janet_disasm_defs(JanetFuncDef *def) {
JanetArray *defs = janet_array(def->defs_length);
for (int32_t i = 0; i < def->defs_length; i++) {
defs->data[i] = janet_disasm(def->defs[i]);
}
defs->count = def->defs_length;
return janet_wrap_array(defs);
}
Janet janet_disasm(JanetFuncDef *def) {
JanetTable *ret = janet_table(10);
janet_table_put(ret, janet_ckeywordv("arity"), janet_disasm_arity(def));
janet_table_put(ret, janet_ckeywordv("min-arity"), janet_disasm_min_arity(def));
janet_table_put(ret, janet_ckeywordv("max-arity"), janet_disasm_max_arity(def));
janet_table_put(ret, janet_ckeywordv("bytecode"), janet_disasm_bytecode(def));
janet_table_put(ret, janet_ckeywordv("source"), janet_disasm_source(def));
janet_table_put(ret, janet_ckeywordv("vararg"), janet_disasm_vararg(def));
janet_table_put(ret, janet_ckeywordv("name"), janet_disasm_name(def));
janet_table_put(ret, janet_ckeywordv("slotcount"), janet_disasm_slotcount(def));
janet_table_put(ret, janet_ckeywordv("constants"), janet_disasm_constants(def));
janet_table_put(ret, janet_ckeywordv("sourcemap"), janet_disasm_sourcemap(def));
janet_table_put(ret, janet_ckeywordv("environments"), janet_disasm_environments(def));
janet_table_put(ret, janet_ckeywordv("defs"), janet_disasm_defs(def));
return janet_wrap_struct(janet_table_to_struct(ret));
}
/* C Function for assembly */
static Janet cfun_asm(int32_t argc, Janet *argv) {
janet_arity(argc, 1, 1);
janet_fixarity(argc, 1);
JanetAssembleResult res;
res = janet_asm(argv[0], 0);
if (res.status != JANET_ASSEMBLE_OK) {
@ -928,9 +954,26 @@ static Janet cfun_asm(int32_t argc, Janet *argv) {
}
static Janet cfun_disasm(int32_t argc, Janet *argv) {
janet_arity(argc, 1, 1);
janet_arity(argc, 1, 2);
JanetFunction *f = janet_getfunction(argv, 0);
return janet_disasm(f->def);
if (argc == 2) {
JanetKeyword kw = janet_getkeyword(argv, 1);
if (!janet_cstrcmp(kw, "arity")) return janet_disasm_arity(f->def);
if (!janet_cstrcmp(kw, "min-arity")) return janet_disasm_min_arity(f->def);
if (!janet_cstrcmp(kw, "max-arity")) return janet_disasm_max_arity(f->def);
if (!janet_cstrcmp(kw, "bytecode")) return janet_disasm_bytecode(f->def);
if (!janet_cstrcmp(kw, "source")) return janet_disasm_source(f->def);
if (!janet_cstrcmp(kw, "name")) return janet_disasm_name(f->def);
if (!janet_cstrcmp(kw, "vararg")) return janet_disasm_vararg(f->def);
if (!janet_cstrcmp(kw, "slotcount")) return janet_disasm_slotcount(f->def);
if (!janet_cstrcmp(kw, "constants")) return janet_disasm_constants(f->def);
if (!janet_cstrcmp(kw, "sourcemap")) return janet_disasm_sourcemap(f->def);
if (!janet_cstrcmp(kw, "environments")) return janet_disasm_environments(f->def);
if (!janet_cstrcmp(kw, "defs")) return janet_disasm_defs(f->def);
janet_panicf("unknown disasm key %v", argv[1]);
} else {
return janet_disasm(f->def);
}
}
static const JanetReg asm_cfuns[] = {
@ -938,15 +981,29 @@ static const JanetReg asm_cfuns[] = {
"asm", cfun_asm,
JDOC("(asm assembly)\n\n"
"Returns a new function that is the compiled result of the assembly.\n"
"The syntax for the assembly can be found on the Janet website. Will throw an\n"
"The syntax for the assembly can be found on the Janet website, and should correspond\n"
"to the return value of disasm. Will throw an\n"
"error on invalid assembly.")
},
{
"disasm", cfun_disasm,
JDOC("(disasm func)\n\n"
JDOC("(disasm func &opt field)\n\n"
"Returns assembly that could be used be compile the given function.\n"
"func must be a function, not a c function. Will throw on error on a badly\n"
"typed argument.")
"typed argument. If given a field name, will only return that part of the function assembly.\n"
"Possible fields are:\n\n"
"\t:arity - number of required and optional arguments.\n"
"\t:min-arity - minimum number of arguments function can be called with.\n"
"\t:max-arity - maximum number of arguments function can be called with.\n"
"\t:vararg - true if function can take a variable number of arguments.\n"
"\t:bytecode - array of parsed bytecode instructions. Each instruction is a tuple.\n"
"\t:source - name of source file that this function was compiled from.\n"
"\t:name - name of function.\n"
"\t:slotcount - how many virtual registers, or slots, this function uses. Corresponds to stack space used by function.\n"
"\t:constants - an array of constants referenced by this function.\n"
"\t:sourcemap - a mapping of each bytecode instruction to a line and column in the source file.\n"
"\t:environments - an internal mapping of which enclosing functions are referenced for bindings.\n"
"\t:defs - other function definitions that this function may instantiate.\n")
},
{NULL, NULL, NULL}
};

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@ -103,6 +103,7 @@ enum JanetInstructionType janet_instructions[JOP_INSTRUCTION_COUNT] = {
JINT_SSS, /* JOP_NEXT */
JINT_SSS, /* JOP_NOT_EQUALS, */
JINT_SSI, /* JOP_NOT_EQUALS_IMMEDIATE, */
JINT_SSS /* JOP_CANCEL, */
};
/* Verify some bytecode */

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@ -231,6 +231,9 @@ static JanetSlot do_yield(JanetFopts opts, JanetSlot *args) {
static JanetSlot do_resume(JanetFopts opts, JanetSlot *args) {
return opfunction(opts, args, JOP_RESUME, janet_wrap_nil());
}
static JanetSlot do_cancel(JanetFopts opts, JanetSlot *args) {
return opfunction(opts, args, JOP_CANCEL, janet_wrap_nil());
}
static JanetSlot do_apply(JanetFopts opts, JanetSlot *args) {
/* Push phase */
JanetCompiler *c = opts.compiler;
@ -383,6 +386,7 @@ static const JanetFunOptimizer optimizers[] = {
{fixarity2, do_modulo},
{fixarity2, do_remainder},
{fixarity2, do_cmp},
{fixarity2, do_cancel},
};
const JanetFunOptimizer *janetc_funopt(uint32_t flags) {

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@ -61,6 +61,7 @@
#define JANET_FUN_MODULO 29
#define JANET_FUN_REMAINDER 30
#define JANET_FUN_CMP 31
#define JANET_FUN_CANCEL 32
/* Compiler typedefs */
typedef struct JanetCompiler JanetCompiler;

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@ -946,6 +946,10 @@ static const uint32_t resume_asm[] = {
JOP_RESUME | (1 << 24),
JOP_RETURN
};
static const uint32_t cancel_asm[] = {
JOP_CANCEL | (1 << 24),
JOP_RETURN
};
static const uint32_t in_asm[] = {
JOP_IN | (1 << 24),
JOP_LOAD_NIL | (3 << 8),
@ -1086,6 +1090,11 @@ JanetTable *janet_core_env(JanetTable *replacements) {
"Yield a value to a parent fiber. When a fiber yields, its execution is paused until "
"another thread resumes it. The fiber will then resume, and the last yield call will "
"return the value that was passed to resume."));
janet_quick_asm(env, JANET_FUN_CANCEL,
"cancel", 2, 2, 2, 2, cancel_asm, sizeof(cancel_asm),
JDOC("(cancel fiber err)\n\n"
"Resume a fiber but have it immediately raise an error. This lets a programmer unwind a pending fiber. "
"Returns the same result as resume."));
janet_quick_asm(env, JANET_FUN_RESUME,
"resume", 2, 1, 2, 2, resume_asm, sizeof(resume_asm),
JDOC("(resume fiber &opt x)\n\n"

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@ -804,6 +804,14 @@ static Janet cfun_ev_sleep(int32_t argc, Janet *argv) {
janet_await();
}
static Janet cfun_ev_cancel(int32_t argc, Janet *argv) {
janet_fixarity(argc, 2);
JanetFiber *fiber = janet_getfiber(argv, 0);
Janet err = argv[1];
janet_cancel(fiber, err);
return argv[0];
}
static const JanetReg ev_cfuns[] = {
{
"ev/call", cfun_ev_call,
@ -867,6 +875,11 @@ static const JanetReg ev_cfuns[] = {
"is not empty. Will prefer channels in a random order (random choice). "
"Returns a non-empty channel.")
},
{
"ev/cancel", cfun_ev_cancel,
JDOC("(ev/cancel fiber err)\n\n"
"Cancel a suspended fiber in the event loop. Differs from cancel in that it returns the canceled fiber immediately")
},
{NULL, NULL, NULL}
};

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@ -91,6 +91,22 @@ JanetFiber *janet_fiber(JanetFunction *callee, int32_t capacity, int32_t argc, c
return janet_fiber_reset(fiber_alloc(capacity), callee, argc, argv);
}
#ifdef JANET_DEBUG
/* Test for memory issues by reallocating fiber every time we push a stack frame */
static void janet_fiber_refresh_memory(JanetFiber *fiber) {
int32_t n = fiber->capacity;
if (n) {
Janet *newData = malloc(sizeof(Janet) * n);
if (NULL == newData) {
JANET_OUT_OF_MEMORY;
}
memcpy(newData, fiber->data, fiber->capacity * sizeof(Janet));
free(fiber->data);
fiber->data = newData;
}
}
#endif
/* Ensure that the fiber has enough extra capacity */
void janet_fiber_setcapacity(JanetFiber *fiber, int32_t n) {
Janet *newData = realloc(fiber->data, sizeof(Janet) * n);
@ -179,6 +195,10 @@ int janet_fiber_funcframe(JanetFiber *fiber, JanetFunction *func) {
if (fiber->capacity < nextstacktop) {
janet_fiber_setcapacity(fiber, 2 * nextstacktop);
#ifdef JANET_DEBUG
} else {
janet_fiber_refresh_memory(fiber);
#endif
}
/* Nil unset stack arguments (Needed for gc correctness) */
@ -311,6 +331,10 @@ int janet_fiber_funcframe_tail(JanetFiber *fiber, JanetFunction *func) {
if (fiber->capacity < nextstacktop) {
janet_fiber_setcapacity(fiber, 2 * nextstacktop);
#ifdef JANET_DEBUG
} else {
janet_fiber_refresh_memory(fiber);
#endif
}
Janet *stack = fiber->data + fiber->frame;
@ -373,6 +397,10 @@ void janet_fiber_cframe(JanetFiber *fiber, JanetCFunction cfun) {
if (fiber->capacity < nextstacktop) {
janet_fiber_setcapacity(fiber, 2 * nextstacktop);
#ifdef JANET_DEBUG
} else {
janet_fiber_refresh_memory(fiber);
#endif
}
/* Set the next frame */

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@ -224,8 +224,8 @@ JanetAsyncStatus net_machine_read(JanetListenerState *s, JanetAsyncEvent event)
} else {
sig = JANET_SIGNAL_ERROR;
resume_val = (nread == -1)
? janet_cstringv(strerror(JLASTERR))
: janet_cstringv("could not read");
? janet_cstringv(strerror(JLASTERR))
: janet_cstringv("could not read");
}
}
janet_schedule_signal(s->fiber, resume_val, sig);

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@ -95,6 +95,10 @@ JANET_THREAD_LOCAL jmp_buf *janet_vm_jmp_buf = NULL;
vm_commit(); \
return (sig); \
} while (0)
#define vm_return_no_restore(sig, val) do { \
janet_vm_return_reg[0] = (val); \
return (sig); \
} while (0)
/* Next instruction variations */
#define maybe_collect() do {\
@ -376,7 +380,7 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
&&label_JOP_NEXT,
&&label_JOP_NOT_EQUALS,
&&label_JOP_NOT_EQUALS_IMMEDIATE,
&&label_unknown_op,
&&label_JOP_CANCEL,
&&label_unknown_op,
&&label_unknown_op,
&&label_unknown_op,
@ -623,7 +627,7 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
Janet retval = stack[D];
int entrance_frame = janet_stack_frame(stack)->flags & JANET_STACKFRAME_ENTRANCE;
janet_fiber_popframe(fiber);
if (entrance_frame) vm_return(JANET_SIGNAL_OK, retval);
if (entrance_frame) vm_return_no_restore(JANET_SIGNAL_OK, retval);
vm_restore();
stack[A] = retval;
vm_checkgc_pcnext();
@ -633,7 +637,7 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
Janet retval = janet_wrap_nil();
int entrance_frame = janet_stack_frame(stack)->flags & JANET_STACKFRAME_ENTRANCE;
janet_fiber_popframe(fiber);
if (entrance_frame) vm_return(JANET_SIGNAL_OK, retval);
if (entrance_frame) vm_return_no_restore(JANET_SIGNAL_OK, retval);
vm_restore();
stack[A] = retval;
vm_checkgc_pcnext();
@ -1011,8 +1015,9 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
retreg = call_nonfn(fiber, callee);
}
janet_fiber_popframe(fiber);
if (entrance_frame)
vm_return(JANET_SIGNAL_OK, retreg);
if (entrance_frame) {
vm_return_no_restore(JANET_SIGNAL_OK, retreg);
}
vm_restore();
stack[A] = retreg;
vm_checkgc_pcnext();
@ -1059,6 +1064,25 @@ static JanetSignal run_vm(JanetFiber *fiber, Janet in) {
vm_return((int) sub_status, stack[B]);
}
VM_OP(JOP_CANCEL) {
Janet retreg;
vm_assert_type(stack[B], JANET_FIBER);
JanetFiber *child = janet_unwrap_fiber(stack[B]);
if (janet_check_can_resume(child, &retreg)) {
vm_commit();
janet_panicv(retreg);
}
fiber->child = child;
JanetSignal sig = janet_continue_signal(child, stack[C], &retreg, JANET_SIGNAL_ERROR);
if (sig != JANET_SIGNAL_OK && !(child->flags & (1 << sig))) {
vm_return(sig, retreg);
}
fiber->child = NULL;
stack = fiber->data + fiber->frame;
stack[A] = retreg;
vm_checkgc_pcnext();
}
VM_OP(JOP_PUT)
vm_commit();
fiber->flags |= JANET_FIBER_RESUME_NO_USEVAL;

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@ -1195,6 +1195,7 @@ enum JanetOpCode {
JOP_NEXT,
JOP_NOT_EQUALS,
JOP_NOT_EQUALS_IMMEDIATE,
JOP_CANCEL,
JOP_INSTRUCTION_COUNT
};

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@ -180,7 +180,7 @@ static int rawmode(void) {
t.c_lflag &= ~(ECHO | ICANON | IEXTEN | ISIG);
t.c_cc[VMIN] = 1;
t.c_cc[VTIME] = 0;
if (tcsetattr(STDIN_FILENO, TCSAFLUSH, &t) < 0) goto fatal;
if (tcsetattr(STDIN_FILENO, TCSADRAIN, &t) < 0) goto fatal;
gbl_israwmode = 1;
return 0;
fatal:
@ -193,7 +193,7 @@ fatal:
/* Disable raw mode */
static void norawmode(void) {
if (gbl_israwmode && tcsetattr(STDIN_FILENO, TCSAFLUSH, &gbl_termios_start) != -1)
if (gbl_israwmode && tcsetattr(STDIN_FILENO, TCSADRAIN, &gbl_termios_start) != -1)
gbl_israwmode = 0;
#ifndef JANET_SINGLE_THREADED
pthread_mutex_unlock(&gbl_lock);

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@ -44,4 +44,17 @@
(assert (= :brackets (tuple/type (1 (macex1 '~[1 2 3 4])))) "macex1 qq bracket tuple")
(assert (deep= (macex1 '~@[1 2 3 4 ,blah]) '~@[1 2 3 4 ,blah]) "macex1 qq array")
# Cancel test
(def f (fiber/new (fn [&] (yield 1) (yield 2) (yield 3) 4) :yti))
(assert (= 1 (resume f)) "cancel resume 1")
(assert (= 2 (resume f)) "cancel resume 2")
(assert (= :hi (cancel f :hi)) "cancel resume 3")
(assert (= :error (fiber/status f)) "cancel resume 4")
# Curenv
(assert (= (curenv) (curenv 0)) "curenv 1")
(assert (= (table/getproto (curenv)) (curenv 1)) "curenv 2")
(assert (= nil (curenv 1000000)) "curenv 3")
(assert (= root-env (curenv 1)) "curenv 4")
(end-suite)