281 lines
6.2 KiB
C++
281 lines
6.2 KiB
C++
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#include "pxt.h"
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#include <stdarg.h>
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PXT_ABI(__aeabi_dadd)
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PXT_ABI(__aeabi_dcmplt)
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PXT_ABI(__aeabi_dcmpgt)
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PXT_ABI(__aeabi_dsub)
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PXT_ABI(__aeabi_ddiv)
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PXT_ABI(__aeabi_dmul)
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extern "C" void target_panic(int error_code) {
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// wait for serial to flush
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wait_us(300000);
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microbit_panic(error_code);
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}
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extern "C" void target_reset() {
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microbit_reset();
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}
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uint32_t device_heap_size(uint8_t heap_index); // defined in microbit-dal
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namespace pxt {
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MicroBit uBit;
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MicroBitEvent lastEvent;
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void platform_init() {
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microbit_seed_random();
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seedRandom(microbit_random(0x7fffffff));
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}
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void initMicrobitGC() {
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if (device_heap_size(1) > NON_GC_HEAP_RESERVATION + 4)
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gcPreAllocateBlock(device_heap_size(1) - NON_GC_HEAP_RESERVATION);
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}
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void platform_init();
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void usb_init();
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struct FreeList {
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FreeList *next;
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};
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static void initCodal() {
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uBit.init();
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// repeat error 4 times and restart as needed
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microbit_panic_timeout(4);
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}
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void dumpDmesg() {}
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// ---------------------------------------------------------------------------
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// An adapter for the API expected by the run-time.
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// ---------------------------------------------------------------------------
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// We have the invariant that if [dispatchEvent] is registered against the DAL
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// for a given event, then [handlersMap] contains a valid entry for that
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// event.
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void dispatchEvent(MicroBitEvent e) {
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lastEvent = e;
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auto curr = findBinding(e.source, e.value);
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auto value = fromInt(e.value);
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if (curr)
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runAction1(curr->action, value);
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curr = findBinding(e.source, DEVICE_EVT_ANY);
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if (curr)
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runAction1(curr->action, value);
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}
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void registerWithDal(int id, int event, Action a, int flags) {
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// first time?
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if (!findBinding(id, event))
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uBit.messageBus.listen(id, event, dispatchEvent, flags);
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setBinding(id, event, a);
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}
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void fiberDone(void *a) {
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decr((Action)a);
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unregisterGCPtr((Action)a);
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release_fiber();
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}
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void releaseFiber() {
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release_fiber();
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}
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void sleep_ms(unsigned ms) {
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fiber_sleep(ms);
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}
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void sleep_us(uint64_t us) {
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wait_us(us);
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}
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void forever_stub(void *a) {
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while (true) {
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runAction0((Action)a);
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fiber_sleep(20);
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}
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}
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void runForever(Action a) {
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if (a != 0) {
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incr(a);
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registerGCPtr(a);
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create_fiber(forever_stub, (void *)a);
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}
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}
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void runInParallel(Action a) {
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if (a != 0) {
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incr(a);
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registerGCPtr(a);
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create_fiber((void (*)(void *))runAction0, (void *)a, fiberDone);
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}
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}
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void waitForEvent(int id, int event) {
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fiber_wait_for_event(id, event);
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}
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void initRuntime() {
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initCodal();
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platform_init();
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}
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//%
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unsigned afterProgramPage() {
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unsigned ptr = (unsigned)&bytecode[0];
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ptr += programSize();
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ptr = (ptr + (PAGE_SIZE - 1)) & ~(PAGE_SIZE - 1);
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return ptr;
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}
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int current_time_ms() {
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return system_timer_current_time();
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}
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static void logwriten(const char *msg, int l) {
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uBit.serial.send((uint8_t *)msg, l);
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}
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static void logwrite(const char *msg) {
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logwriten(msg, strlen(msg));
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}
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static void writeNum(char *buf, uint32_t n, bool full) {
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int i = 0;
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int sh = 28;
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while (sh >= 0) {
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int d = (n >> sh) & 0xf;
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if (full || d || sh == 0 || i) {
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buf[i++] = d > 9 ? 'A' + d - 10 : '0' + d;
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}
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sh -= 4;
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}
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buf[i] = 0;
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}
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static void logwritenum(uint32_t n, bool full, bool hex) {
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char buff[20];
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if (hex) {
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writeNum(buff, n, full);
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logwrite("0x");
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} else {
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itoa(n, buff);
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}
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logwrite(buff);
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}
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void vdebuglog(const char *format, va_list ap) {
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const char *end = format;
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while (*end) {
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if (*end++ == '%') {
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logwriten(format, end - format - 1);
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uint32_t val = va_arg(ap, uint32_t);
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switch (*end++) {
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case 'c':
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logwriten((const char *)&val, 1);
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break;
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case 'd':
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logwritenum(val, false, false);
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break;
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case 'x':
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logwritenum(val, false, true);
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break;
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case 'p':
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case 'X':
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logwritenum(val, true, true);
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break;
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case 's':
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logwrite((char *)(void *)val);
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break;
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case '%':
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logwrite("%");
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break;
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default:
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logwrite("???");
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break;
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}
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format = end;
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}
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}
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logwriten(format, end - format);
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logwrite("\n");
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}
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void debuglog(const char *format, ...) {
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va_list arg;
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va_start(arg, format);
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vdebuglog(format, arg);
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va_end(arg);
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}
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void sendSerial(const char *data, int len) {
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logwriten(data, len);
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}
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#ifdef PXT_GC
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ThreadContext *getThreadContext() {
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if (!currentFiber)
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return NULL;
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return (ThreadContext *)currentFiber->user_data;
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}
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void setThreadContext(ThreadContext *ctx) {
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currentFiber->user_data = ctx;
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}
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static void *threadAddressFor(Fiber *fib, void *sp) {
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if (fib == currentFiber)
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return sp;
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return (uint8_t *)sp + ((uint8_t *)fib->stack_top - (uint8_t *)fib->tcb.stack_base);
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}
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void gcProcessStacks(int flags) {
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// check scheduler is initialized
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if (!currentFiber) {
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// make sure we allocate something to at least initalize the memory allocator
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void * volatile p = xmalloc(1);
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xfree(p);
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return;
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}
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int numFibers = list_fibers(NULL);
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Fiber **fibers = (Fiber **)xmalloc(sizeof(Fiber *) * numFibers);
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int num2 = list_fibers(fibers);
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if (numFibers != num2)
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oops(12);
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int cnt = 0;
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for (int i = 0; i < numFibers; ++i) {
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auto fib = fibers[i];
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auto ctx = (ThreadContext *)fib->user_data;
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if (!ctx)
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continue;
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for (auto seg = &ctx->stack; seg; seg = seg->next) {
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auto ptr = (TValue *)threadAddressFor(fib, seg->top);
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auto end = (TValue *)threadAddressFor(fib, seg->bottom);
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if (flags & 2)
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DMESG("RS%d:%p/%d", cnt++, ptr, end - ptr);
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// VLOG("mark: %p - %p", ptr, end);
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while (ptr < end) {
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gcProcess(*ptr++);
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}
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}
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}
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xfree(fibers);
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}
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#endif
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} // namespace pxt
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