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Add tools to characterise a client's stack usage
jonroach
on 1:49 PM Nov 3 2025
coroutine.h
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#ifndef COROUTINE_H
#define COROUTINE_H
#include <stdbool.h>
#include <stdint.h>
///////////////////////////////////////////////////////////////////////////////
// Coroutine
//
// Coroutines for C, based on setjmp/longjmp.
// Thread safe - each thread has its own coroutine system
// Coroutines are cooperatively scheduled
// Coroutines have their own stack (currently 16K each)
// A coroutine can be continued, queried, or deleted on a different thread.
//
// Usage:
// Coroutine_StartSystem(); // call once per thread before using coroutines
// Coroutine *co = Coroutine_New(start_function);
// void *result = Coroutine_Run(co, initial_value);
// Coroutine_Delete(co);
// Coroutine_StopSystem(); // call once per thread when done with coroutines
//
// Inside the coroutine function:
// void *value = Coroutine_Yield(yield_value, on_yield, this);
// ...
// return return_value;
//
// To create a coroutine:
// Coroutine *co = Coroutine_New(start_function);
// To start or continue a coroutine:
// void *result = Coroutine_Continue(co, value, early);
// // early=true puts the coroutine at the head of the run queue
// // early=false puts the coroutine at the tail of the run queue
// To yield from inside a coroutine:
// void *value = Coroutine_Yield(yield_value, on_yield, this);
// // on_yield is called before the next coroutine is run
// // 'this' is passed to on_yield as its parameter
// // value is the value passed to Coroutine_Continue
// To delete a coroutine:
// Coroutine_Delete(co);
// To get the value yielded from, or returned by a corotuine:
// void *value = Coroutine_GetValue(co);
// To get the currently running coroutine (NULL if none):
// Coroutine *co = Coroutine_GetActive();
// To check if a coroutine is currently running:
// bool running = Coroutine_IsRunning(co);
//
// Notes:
// Coroutine is not expected to be used directly, but as a foundation for
// higher level constructs such as Generators, Async, etc.
//
///////////////////////////////////////////////////////////////////////////////
// The stack is used as follows:
// +------------------+ <- stack top
// | coroutine header | <- more claimed as needed in Coroutine_New
// +------------------+ <-
// | coroutine stack | <-
// +------------------+ <-
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | startup space | <- set aside by Coroutine_StartSystem
// +------------------+
// | caller | <- This calls Coroutine_StartSystem etc
// +------------------+
// | used stack |
// +------------------+ <- stack bottom
// Each coroutine has this much stack:
#ifndef COROUTINE_STACK_SIZE
#define COROUTINE_STACK_SIZE 65536
#endif
// When Coroutine is started, an amount of stack is set aside to give
// the caller of Coroutine_StartSystem a bit of room to work before calling
// Coroutine_Run(), that is this amount:
#ifndef COROUTINE_STARTUP_STACK_SIZE
#define COROUTINE_STARTUP_STACK_SIZE 4096
#endif
// Returned by Coroutine_StopSystem(), this summarises the coroutine session
typedef struct Coroutine_Report {
unsigned coroutines_created;
unsigned coroutines_pool_size;
unsigned lowest_headroom;
} Coroutine_Report;
typedef struct Coroutine Coroutine;
typedef void (*Coroutine_YieldCallback)(void *me);
typedef void *(*Coroutine_Start)(void *);
extern void Coroutine_StartSystem(void);
extern Coroutine_Report Coroutine_StopSystem(void);
extern Coroutine *Coroutine_New(Coroutine_Start start);
extern void Coroutine_Run_Coroutine(Coroutine *cor, void *value);
extern void *Coroutine_Run(Coroutine_Start start, void *value);
extern void Coroutine_Delete(Coroutine *cor);
extern void Coroutine_Continue(Coroutine *cor, void *value, bool early);
extern void *Coroutine_Yield(void *value, Coroutine_YieldCallback on_yield, void *me);
extern void *Coroutine_GetValue(Coroutine *cor);
extern Coroutine *Coroutine_GetActive(void);
extern intptr_t Coroutine_GetStackHeadroom(void);
extern bool Coroutine_HasCoroutinesInFreePool(void);
extern void *Coroutine_GetCStackTop(void);
extern void *Coroutine_Chain(Coroutine_Start start, void *value);
extern bool Coroutine_IsStarted(void);
extern bool Coroutine_IsRunning(Coroutine *cor);
#endif
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#ifndef COROUTINE_H
#define COROUTINE_H
#include <stdbool.h>
#include <stdint.h>
///////////////////////////////////////////////////////////////////////////////
// Coroutine
//
// Coroutines for C, based on setjmp/longjmp.
// Thread safe - each thread has its own coroutine system
// Coroutines are cooperatively scheduled
// Coroutines have their own stack (currently 16K each)
// A coroutine can be continued, queried, or deleted on a different thread.
//
// Usage:
// Coroutine_StartSystem(); // call once per thread before using coroutines
// Coroutine *co = Coroutine_New(start_function);
// void *result = Coroutine_Run(co, initial_value);
// Coroutine_Delete(co);
// Coroutine_StopSystem(); // call once per thread when done with coroutines
//
// Inside the coroutine function:
// void *value = Coroutine_Yield(yield_value, on_yield, this);
// ...
// return return_value;
//
// To create a coroutine:
// Coroutine *co = Coroutine_New(start_function);
// To start or continue a coroutine:
// void *result = Coroutine_Continue(co, value, early);
// // early=true puts the coroutine at the head of the run queue
// // early=false puts the coroutine at the tail of the run queue
// To yield from inside a coroutine:
// void *value = Coroutine_Yield(yield_value, on_yield, this);
// // on_yield is called before the next coroutine is run
// // 'this' is passed to on_yield as its parameter
// // value is the value passed to Coroutine_Continue
// To delete a coroutine:
// Coroutine_Delete(co);
// To get the value yielded from, or returned by a corotuine:
// void *value = Coroutine_GetValue(co);
// To get the currently running coroutine (NULL if none):
// Coroutine *co = Coroutine_GetActive();
// To check if a coroutine is currently running:
// bool running = Coroutine_IsRunning(co);
//
// Notes:
// Coroutine is not expected to be used directly, but as a foundation for
// higher level constructs such as Generators, Async, etc.
//
///////////////////////////////////////////////////////////////////////////////
// The stack is used as follows:
// +------------------+ <- stack top
// | coroutine header | <- more claimed as needed in Coroutine_New
// +------------------+ <-
// | coroutine stack | <-
// +------------------+ <-
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | coroutine stack |
// +------------------+
// | coroutine header |
// +------------------+
// | startup space | <- set aside by Coroutine_StartSystem
// +------------------+
// | caller | <- This calls Coroutine_StartSystem etc
// +------------------+
// | used stack |
// +------------------+ <- stack bottom
// Each coroutine has this much stack:
#ifndef COROUTINE_STACK_SIZE
#define COROUTINE_STACK_SIZE 65536
#endif
// When Coroutine is started, an amount of stack is set aside to give
// the caller of Coroutine_StartSystem a bit of room to work before calling
// Coroutine_Run(), that is this amount:
#ifndef COROUTINE_STARTUP_STACK_SIZE
#define COROUTINE_STARTUP_STACK_SIZE 4096
#endif
// Returned by Coroutine_StopSystem(), this summarises the coroutine session
typedef struct Coroutine_Report {
unsigned coroutines_created;
unsigned coroutines_pool_size;
unsigned lowest_headroom;
uintptr_t stack_per_coroutine;
} Coroutine_Report;
typedef struct Coroutine Coroutine;
typedef void (*Coroutine_YieldCallback)(void *me);
typedef void *(*Coroutine_Start)(void *);
extern void Coroutine_StartSystem(void);
extern Coroutine_Report Coroutine_StopSystem(void);
extern Coroutine *Coroutine_New(Coroutine_Start start);
extern void Coroutine_Run_Coroutine(Coroutine *cor, void *value);
extern void *Coroutine_Run(Coroutine_Start start, void *value);
extern void Coroutine_Delete(Coroutine *cor);
extern void Coroutine_Continue(Coroutine *cor, void *value, bool early);
extern void *Coroutine_Yield(void *value, Coroutine_YieldCallback on_yield, void *me);
extern void *Coroutine_GetValue(Coroutine *cor);
extern Coroutine *Coroutine_GetActive(void);
extern intptr_t Coroutine_GetStackHeadroom(void);
extern void *Coroutine_GetStackHWM(void);
extern void Coroutine_ClearStackForHWM(void);
extern bool Coroutine_CanStartCoroutine(void *);
extern void *Coroutine_GetCStackTop(void);
extern void *Coroutine_Chain(Coroutine_Start start, void *value);
extern bool Coroutine_IsStarted(void);
extern bool Coroutine_IsRunning(Coroutine *cor);
#endif