/external/clang/test/Sema/ |
arm-interrupt-attr.c | 3 __attribute__((interrupt(IRQ))) void foo() {} // expected-error {{'interrupt' attribute requires a string}} 4 __attribute__((interrupt("irq"))) void foo1() {} // expected-warning {{'interrupt' attribute argument not supported: irq}} 6 __attribute__((interrupt("IRQ", 1))) void foo2() {} // expected-error {{'interrupt' attribute takes no more than 1 argument}} 8 __attribute__((interrupt("IRQ"))) void foo3() {} 9 __attribute__((interrupt("FIQ"))) void foo4() {} 10 __attribute__((interrupt("SWI"))) void foo5() {} 11 __attribute__((interrupt("ABORT"))) void foo6() { [all...] |
attr-msp430.c | 4 void f(void) __attribute__((interrupt(i))); /* expected-error {{'interrupt' attribute requires an integer constant}} */
6 void f2(void) __attribute__((interrupt(12)));
|
/external/qemu/include/hw/arm/ |
pic.h | 2 * Generic ARM Programmable Interrupt Controller support. 9 * Arm hardware uses a wide variety of interrupt handling hardware. 10 * This provides a generic framework for connecting interrupt sources and 20 /* The CPU is also modeled as an interrupt controller. */
|
/external/clang/test/CodeGen/ |
arm-interrupt-attr.c | 4 __attribute__((interrupt)) void test_generic_interrupt() { 10 __attribute__((interrupt("IRQ"))) void test_irq_interrupt() { 14 __attribute__((interrupt("FIQ"))) void test_fiq_interrupt() { 18 __attribute__((interrupt("SWI"))) void test_swi_interrupt() { 22 __attribute__((interrupt("ABORT"))) void test_abort_interrupt() { 27 __attribute__((interrupt("UNDEF"))) void test_undef_interrupt() { 31 // CHECK: attributes [[GENERIC_ATTR]] = { nounwind alignstack=8 {{"interrupt"[^=]}} 32 // CHECK: attributes [[IRQ_ATTR]] = { nounwind alignstack=8 "interrupt"="IRQ" 33 // CHECK: attributes [[FIQ_ATTR]] = { nounwind alignstack=8 "interrupt"="FIQ" 34 // CHECK: attributes [[SWI_ATTR]] = { nounwind alignstack=8 "interrupt"="SWI [all...] |
/external/strace/test/ |
sig.c | 5 void interrupt() function 14 signal(SIGINT, interrupt);
|
/external/qemu/include/hw/timer/ |
hpet.h | 15 #define HPET_IE_ON _IO('h', 0x01) /* interrupt on */ 16 #define HPET_IE_OFF _IO('h', 0x02) /* interrupt off */
|
/prebuilts/gcc/linux-x86/host/x86_64-linux-glibc2.11-4.6/sysroot/usr/include/linux/ |
hpet.h | 16 #define HPET_IE_ON _IO('h', 0x01) /* interrupt on */ 17 #define HPET_IE_OFF _IO('h', 0x02) /* interrupt off */
|
/prebuilts/gcc/linux-x86/host/x86_64-linux-glibc2.11-4.8/sysroot/usr/include/linux/ |
hpet.h | 16 #define HPET_IE_ON _IO('h', 0x01) /* interrupt on */ 17 #define HPET_IE_OFF _IO('h', 0x02) /* interrupt off */
|
/external/chromium_org/third_party/sqlite/src/test/ |
interrupt.test | 14 # $Id: interrupt.test,v 1.16 2008/01/16 17:46:38 drh Exp $ 22 # interrupt at progressively later and later points during the processing 51 do_test interrupt-1.1 { 57 interrupt_test interrupt-1.2 {DROP TABLE t1} {} 58 do_test interrupt-1.3 { 63 integrity_check interrupt-1.4 84 interrupt_test interrupt-2.2 {VACUUM} {} 100 86 do_test interrupt-2.3 { 92 do_test interrupt-2.4 { 97 do_test interrupt-2.5 [all...] |
/external/chromium_org/tools/usb_gadget/ |
linux_gadgetfs.py | 30 INTERRUPT = 0x02 35 usb_constants.TransferType.INTERRUPT: INTERRUPT, 46 0x01: ('ep1out', BULK | INTERRUPT | ISOCHRONOUS, 512), 47 0x81: ('ep1in', BULK | INTERRUPT | ISOCHRONOUS, 512), 48 0x02: ('ep2out', BULK | INTERRUPT | ISOCHRONOUS, 512), 49 0x82: ('ep2in', BULK | INTERRUPT | ISOCHRONOUS, 512), 50 0x03: ('ep2out', BULK | INTERRUPT | ISOCHRONOUS, 512), 51 0x83: ('ep2in', BULK | INTERRUPT | ISOCHRONOUS, 512), 52 0x04: ('ep2out', BULK | INTERRUPT | ISOCHRONOUS, 512) [all...] |
/external/kernel-headers/original/uapi/linux/ |
hpet.h | 16 #define HPET_IE_ON _IO('h', 0x01) /* interrupt on */ 17 #define HPET_IE_OFF _IO('h', 0x02) /* interrupt off */
|
/external/qemu/hw/mips/ |
mips_pic.c | 2 * MIPS CPU interrupt support. 23 cpu_abort(env, "mips_pic_cpu_handler: Bad interrupt line %d\n",
|
/external/clang/test/Misc/ |
ast-dump-arm-attr.c | 3 __attribute__((interrupt)) void Test(void);
|
ast-dump-msp430-attr.c | 3 __attribute__((interrupt(12))) void Test(void);
|
/frameworks/base/docs/html/training/multiple-threads/ |
run-code.jd | 13 <li><a href="#StopThread">Interrupt Running Code</a></li> 74 <h2 id="StopThread">Interrupt Running Code</h2> 76 To stop a task, you need to interrupt the task's thread. To prepare to do this, you need to 94 To interrupt a thread, call {@link java.lang.Thread#interrupt Thread.interrupt()}. Notice that 97 interrupt it, by placing the access in a <code>synchronized</code> block. For example: 119 // if the Thread exists, post an interrupt to it 121 thread.interrupt(); 130 In most cases, {@link java.lang.Thread#interrupt Thread.interrupt()} stops the threa [all...] |
/external/netperf/ |
netcpu_pstatnew.c | 34 interrupt. so, we can now use those to calculate CPU utilization 45 uint64_t interrupt; member in struct:cpu_time_counters 131 res[i].interrupt = (((uint64_t)psp[i].psp_interruptcycles.psc_hi << 32) + 137 res[i].interrupt); 167 "\t interrupt %llu\n",counters[instance].interrupt); 227 thing in measuring user, kernel, interrupt and idle all together 228 instead of overlapping interrupt with the others like an OS that 230 accounting for interrupt cycles, whereby the cycles do not get 231 properly accounted. The sum of user, kernel, interrupt and idl [all...] |
netcpu_kstat10.c | 48 uint64_t interrupt; member in struct:cpu_time_counters 67 "\t interrupt %llu\n",counters[instance].interrupt); 217 counters[cpu_num].interrupt = 0; 231 counters[cpu_num].interrupt += knp->value.ui64; 354 the interrupt time accounting is in parallel with the other 356 idle will also include time spent in interrupt. for netperf's 361 we could just subtract interrupt time from idle. that has the 365 mechanism, suggested by a Sun engineer is to subtract interrupt 368 with the interrupt time and use that to calculate a new idl [all...] |
/external/oprofile/module/x86/ |
op_arch.h | 21 /* Bit in processor's status register for interrupt masking */
|
/external/qemu-pc-bios/vgabios/ |
Notes | 11 - need to rework the tables as explained in Interrupt list
|
/external/guava/guava/src/com/google/common/util/concurrent/ |
AbstractCheckedFuture.java | 51 * {@code checkedGet} method has already restored the interrupt after catching 53 * wishes to swallow the interrupt, it can do so by calling 69 * implementation will set the current thread's interrupt status before 80 Thread.currentThread().interrupt(); 97 * implementation will set the current thread's interrupt status before 109 Thread.currentThread().interrupt();
|
/frameworks/ex/variablespeed/tests/src/com/android/ex/variablespeed/ |
AwaitableCompletionListener.java | 42 // If this thread is using interrupt to shut down, preserve interrupt status and return. 43 Thread.currentThread().interrupt();
|
AwaitableErrorListener.java | 50 // If this thread is using interrupt to shut down, preserve interrupt status and return. 51 Thread.currentThread().interrupt();
|
/art/test/050-sync-test/ |
expected.txt | 30 Interrupt Test
|
/development/samples/USB/MissileLauncher/ |
README.txt | 12 - Receiving packets on an interrupt endpoint using a thread that calls
|
/external/chromium_org/v8/test/mjsunit/regress/ |
regress-crbug-385002.js | 7 %Break(); // Schedule an interrupt that does not go away.
|