X-Git-Url: http://review.tizen.org/git/?a=blobdiff_plain;f=src%2Flib%2FEmbryo.h;h=74c872bc54bab27ec30935dbd8d175a77f9a60ae;hb=fd4cb019c2018d86f098d554a2f05dd6911ba950;hp=e7c1a7217ad2306a55e0613c9ce3fee901928418;hpb=d721c88af095bd60495ec175a10c90e88958e706;p=framework%2Fuifw%2Fembryo.git diff --git a/src/lib/Embryo.h b/src/lib/Embryo.h index e7c1a72..74c872b 100644 --- a/src/lib/Embryo.h +++ b/src/lib/Embryo.h @@ -1,3 +1,312 @@ +/** +@brief Embryo Library + +These routines are used for Embryo. + +@mainpage Embryo Library Documentation + +@image html e_big.png + +@version 1.0.0 +@author Carsten Haitzler +@author Compuphase http://www.compuphase.com +@date 2004-2011 + +@section intro What is Embryo? + +Embryo is a tiny library designed to interpret limited Small programs +compiled by the included compiler, @c embryo_cc. It is mostly a cleaned +up and smaller version of the original Small abstract machine. The +compiler is mostly untouched. + +Small was renamed to Pawn. +For more information about the Pawn language, see +@htmlonly Pawn +@endhtmlonly +@latexonly http://www.compuphase.com/pawn/pawn.htm @endlatexonly +For the basics about the Small language, see @ref Small_Page. + +@section How_to_Use How to Use Embryo? + +To use Embryo in your code, you need to do at least the following: + +@li Include @ref Embryo.h. +@li Load the Embryo program using one of the + @ref Embryo_Program_Creation_Group. +@li Set up the native calls with @ref embryo_program_native_call_add. +@li Create a virtual machine with @ref embryo_program_vm_push. +@li Then run the program with @ref embryo_program_run. + +@todo Clean up compiler code. +@todo Proper overview of the operation of the interpreter, that is how + the heap, stack, virtual machines, etc fit together. + +@page Small_Page Brief Introduction to Small + +This section describes the basics of Small, as compiled and interpreted +with Embryo. + +This summary assumes that you are familar with C. For a full list of +differences between C and Small, again, see the full documentation. + +@section Small_Variables_Section Variables + +@subsection Small_Type_Subsection Types + +There is only one type, known as the "cell", which can hold an integer. + +@subsection Small_Scope_Subsection Scope + +The scope and usage of a variable depends on its declaration. + +@li A local variable is normally declared with the @c new keyword. E.g. + @code new variable @endcode +@li A static function variable is defined within a function with the + @c static keyword. +@li A global static variable is one that is only available within the + file it was declared in. Again, use the @c static keyword, but outside + of any function. +@li A stock variable is one that may not be compiled into a program if it + is not used. It is declared using @c stock. +@li A public variable is one that can be read by the host program using + @ref embryo_program_variable_find. It is declared using @c public + keyword. + +Remember that the keywords above are to be used on their own. That is, +for example: @code public testvar @endcode not: +@code new public testvar @endcode + +@subsection Small_Constants_Subsection Constants + +You can declare constants in two ways: +@li Using the preprocessor macro @c \#define. +@li By inserting @c const between the keyword and variable name of a + variable declaration. For example, to declare the variable @c var1 + constant, you type @code new const var1 = 2 @endcode Now @c var1 + cannot be changed. + +@subsection Small_Arrays_Subsection Arrays + +To declare an array, append square brackets to the end of the variable +name. The following examples show how to declare arrays. Note the +use of the ellipsis operator, which bases the array based on the last two +declared values: + +@code +new msg[] = "A message." +new ints[] = {1, 3, 4} +new ints2[20] = {1, 3} // All other elements 0. +new ints3[10] = {1, ... } // All elements = 1 +new ints4[10] = {10, 20, ... } // Elements = 10 -> 100. + // The difference can be negative. +new ints5[3][3] = {{1, 2, 3}, {4, 5, 6}, {7, 8, 9}} +@endcode + +@note Array initialisers need to be constant. + +@section Small_Func_Calls_Section Function Calls + +A typical function declaration is as follows: + +@code +testfunc(param) { + // Do something ... + // over a couple of lines. +} +@endcode + +You can pass by reference. That is, the parameter you pass is changed +outside of the function. For example: + +@code +testfunc(¶m) { + param = 10 + // The passed variable will be set to 10 outside of the function. +} +@endcode + +To pass an array: + +@code +testfunc(param[]) { + // Do something to the array +} +@endcode + +@note Arrays are passed by reference. + +@section Small_Control_Subsection Control Structures. + +Small has the following control structures, which similar to their C +counterparts: +@li @code if (expression) statement1 else statement2 @endcode +@li @code switch (expression) { + case 0: + statement1 // Can only be one statement. Look Ma, no breaks! + case 1..3: // For values between 1 and 3 inclusive. + statement2 + default: // Optional + statement3 +} +@endcode +@li @code while(expression) statement @endcode +@li @code do statement while (expression) @endcode +@li @code for (init_expression; before_iter_test_expression; after_iter_expression) statement @endcode + +@section Small_Preprocessor_Section Preprocessor + +The following preprocessor directives are available: +@li @code #assert constant_expression @endcode +@li @code #define pattern replacement @endcode +@li @code #define pattern(%1,%2,...) replacement @endcode +@li @code #include filename @endcode +@li @code #if constant_expression + // Various bits of code +#else + // Other bits of code +#endif +@endcode +@li @code #undef pattern @endcode + + +@page Available_Native_Calls_Page Available Calls + +Embryo provides a minimal set of native calls that can be used within +any Embryo script. Those calls are detailed here. + +@note Some of the "core" functions here are also described in the full + Small documentation given + +@todo Finish this section. + +@section Args_ANC_Section Argument Functions + +@subsection Numargs_Desc numargs + +Returns the number of arguments passed to a function. Useful +when dealing with variable argument lists. + +@subsection Getargs_Desc getarg(arg, index=0) + +Retrieves the argument number @c arg. If the argument is an array, +use @c index to specify the index of the array to return. + +@subsection Setargs_Desc setargs(arg, index=0, value) + +Sets the argument number @c arg to the given @c arg. @c index specifies +the index of @c arg to set if @c arg is an array. + +@section String_ANC_Section String Functions + +Functions that work on strings. + +@subsection Atoi_Desc atoi + +Translates an number in string form into an integer. + +@subsection Fnmatch_Desc fnmatch + +Buggered if I know what this does? + +@subsection Strcmp_Desc strcmp + +String comparing function. + + +@section Float_ANC_Section Float Functions + +@subsection Float_Desc float + +@subsection Atof_Desc atof + +@subsection Float_Mul_Desc float_mul + +@subsection Float_Div_Desc float_div + +@subsection Float_Add_Desc float_add + +@subsection Float_Sub_Desc float_sub + +@subsection Fract_Desc fract + +@subsection Round_Desc round + +@subsection Float_Cmp_Desc float_cmp + +@subsection Sqrt_Desc sqrt + +@subsection Pow_Desc pow + +@subsection Log_Desc log + +@subsection Sin_Desc sin + +@subsection Cos_Desc cos + +@subsection Tan_Desc tan + +@subsection Abs_Desc abs + +Returns the absolute value of the given float. + +@section Time_ANC_Section Time Functions + +@subsection Seconds_Desc seconds() + +@subsection Date_Desc date + + +@section Rand_ANC_Section Random Functions + +@subsection Rand_Desc rand() + +Returns a random integer. + +@subsection Randf_Desc randf() + +Returns a random float. + +@file Embryo.h +@brief Embryo virtual machine library. + +This file includes the routines needed for Embryo library interaction. +This is the @e only file you need to include. + +*/ + +// The following definitions are in Embryo.h, but I did not want to +// mess up the formatting of the file + +/** + @def EMBRYO_FUNCTION_NONE + An invalid/non-existent function. +*/ + +/** + @def EMBRYO_FUNCTION_MAIN + Start at program entry point. For use with @ref embryo_program_run. +*/ + +/** + @def EMBRYO_FUNCTION_CONT + Continue from last address. For use with @ref embryo_program_run. +*/ + +/** + @def EMBRYO_PROGRAM_OK + Program was run successfully. +*/ + +/** + @def EMBRYO_PROGRAM_SLEEP + The program's execution was interrupted by a Small @c sleep command. +*/ + +/** + @def EMBRYO_PROGRAM_FAIL + An error in the program caused it to fail. +*/ + #ifndef _EMBRYO_H #define _EMBRYO_H @@ -32,7 +341,7 @@ extern "C" { #endif #define EMBRYO_VERSION_MAJOR 1 -#define EMBRYO_VERSION_MINOR 0 +#define EMBRYO_VERSION_MINOR 2 typedef struct _Embryo_Version { @@ -115,42 +424,475 @@ extern "C" { # define EMBRYO_CELL_TO_FLOAT(c) ((Embryo_Float_Cell) c).f #endif - EAPI int embryo_init(void); - EAPI int embryo_shutdown(void); - - EAPI Embryo_Program *embryo_program_new(void *data, int size); - EAPI Embryo_Program *embryo_program_const_new(void *data, int size); - EAPI Embryo_Program *embryo_program_load(char *file); - EAPI void embryo_program_free(Embryo_Program *ep); - EAPI void embryo_program_native_call_add(Embryo_Program *ep, const char *name, Embryo_Cell (*func) (Embryo_Program *ep, Embryo_Cell *params)); - EAPI void embryo_program_vm_reset(Embryo_Program *ep); - EAPI void embryo_program_vm_push(Embryo_Program *ep); - EAPI void embryo_program_vm_pop(Embryo_Program *ep); - EAPI void embryo_swap_16(unsigned short *v); - EAPI void embryo_swap_32(unsigned int *v); - EAPI Embryo_Function embryo_program_function_find(Embryo_Program *ep, const char *name); - EAPI Embryo_Cell embryo_program_variable_find(Embryo_Program *ep, const char *name); - EAPI int embryo_program_variable_count_get(Embryo_Program *ep); - EAPI Embryo_Cell embryo_program_variable_get(Embryo_Program *ep, int num); - EAPI void embryo_program_error_set(Embryo_Program *ep, Embryo_Error error); - EAPI Embryo_Error embryo_program_error_get(Embryo_Program *ep); - EAPI void embryo_program_data_set(Embryo_Program *ep, void *data); - EAPI void *embryo_program_data_get(Embryo_Program *ep); - EAPI const char *embryo_error_string_get(Embryo_Error error); - EAPI int embryo_data_string_length_get(Embryo_Program *ep, Embryo_Cell *str_cell); - EAPI void embryo_data_string_get(Embryo_Program *ep, Embryo_Cell *str_cell, char *dst); - EAPI void embryo_data_string_set(Embryo_Program *ep, const char *src, Embryo_Cell *str_cell); - EAPI Embryo_Cell *embryo_data_address_get(Embryo_Program *ep, Embryo_Cell addr); - EAPI Embryo_Cell embryo_data_heap_push(Embryo_Program *ep, int cells); - EAPI void embryo_data_heap_pop(Embryo_Program *ep, Embryo_Cell down_to); - EAPI int embryo_program_recursion_get(Embryo_Program *ep); - EAPI Embryo_Status embryo_program_run(Embryo_Program *ep, Embryo_Function func); - EAPI Embryo_Cell embryo_program_return_value_get(Embryo_Program *ep); - EAPI void embryo_program_max_cycle_run_set(Embryo_Program *ep, int max); - EAPI int embryo_program_max_cycle_run_get(Embryo_Program *ep); - EAPI int embryo_parameter_cell_push(Embryo_Program *ep, Embryo_Cell cell); - EAPI int embryo_parameter_string_push(Embryo_Program *ep, const char *str); - EAPI int embryo_parameter_cell_array_push(Embryo_Program *ep, Embryo_Cell *cells, int num); + /** + * @defgroup Embryo_Library_Group Library Maintenance Functions + * + * Functions that start up and shutdown the Embryo library. + */ + + +/** + * Initialises the Embryo library. + * @return The number of times the library has been initialised without being + * shut down. + * @ingroup Embryo_Library_Group + */ +EAPI int embryo_init(void); + +/** + * Shuts down the Embryo library. + * @return The number of times the library has been initialised without being + * shutdown. + * @ingroup Embryo_Library_Group + */ +EAPI int embryo_shutdown(void); + + /** + * @defgroup Embryo_Program_Creation_Group Program Creation and Destruction Functions + * + * Functions that set up programs, and destroy them. + */ + +/** + * Creates a new Embryo program, with bytecode data that can be freed. + * @param data Pointer to the bytecode of the program. + * @param size Number of bytes of bytecode. + * @return A new Embryo program. + * @ingroup Embryo_Program_Creation_Group + */ +EAPI Embryo_Program *embryo_program_new(void *data, int size); + +/** + * Creates a new Embryo program, with bytecode data that cannot be + * freed. + * @param data Pointer to the bytecode of the program. + * @param size Number of bytes of bytecode. + * @return A new Embryo program. + * @ingroup Embryo_Program_Creation_Group + */ +EAPI Embryo_Program *embryo_program_const_new(void *data, int size); + +/** + * Creates a new Embryo program based on the bytecode data stored in the + * given file. + * @param file Filename of the given file. + * @return A new Embryo program. + * @ingroup Embryo_Program_Creation_Group + */ +EAPI Embryo_Program *embryo_program_load(const char *file); + +/** + * Frees the given Embryo program. + * @param ep The given program. + * @ingroup Embryo_Program_Creation_Group + */ +EAPI void embryo_program_free(Embryo_Program *ep); + +/** + * Adds a native program call to the given Embryo program. + * @param ep The given Embryo program. + * @param name The name for the call used in the script. + * @param func The function to use when the call is made. + * @ingroup Embryo_Func_Group + */ + +/** + * @defgroup Embryo_Func_Group Function Functions + * + * Functions that deal with Embryo program functions. + */ +EAPI void embryo_program_native_call_add(Embryo_Program *ep, const char *name, Embryo_Cell (*func) (Embryo_Program *ep, Embryo_Cell *params)); + +/** + * Resets the current virtual machine session of the given program. + * @param ep The given program. + * @ingroup Embryo_Program_VM_Group + */ + +/** + * @defgroup Embryo_Program_VM_Group Virtual Machine Functions + * + * Functions that deal with creating and destroying virtual machine sessions + * for a given program. + * + * A given embryo program can have multiple virtual machine sessions running. + * This is useful when you have a native call that in turn calls a function in + * the embryo program. The native call can start a new virtual machine + * session to run the function it needs. Once completed, the session can be + * popped off the program's stack, and the native call can return its value + * to the old session. + * + * A new virtual machine session is created by pushing a new virtual machine + * onto the session stack of a program using @ref embryo_program_vm_push. + * The current virtual machine session can be destroyed by calling + * @ref embryo_program_vm_pop. + */ +EAPI void embryo_program_vm_reset(Embryo_Program *ep); + +/** + * Starts a new virtual machine session for the given program. + * + * See @ref Embryo_Program_VM_Group for more information about how this works. + * + * @param ep The given program. + * @ingroup Embryo_Program_VM_Group + */ +EAPI void embryo_program_vm_push(Embryo_Program *ep); + +/** + * Frees the current virtual machine session associated with the given program. + * + * See @ref Embryo_Program_VM_Group for more information about how this works. + * Note that you will need to retrieve any return data or data on the stack + * before you pop. + * + * @param ep The given program. + * @ingroup Embryo_Program_VM_Group + */ +EAPI void embryo_program_vm_pop(Embryo_Program *ep); + +/** + * Ensures that the given unsigned short integer is in the small + * endian format. + * @param v Pointer to the given integer. + * @ingroup Embryo_Swap_Group + */ + +/** + * @defgroup Embryo_Swap_Group Byte Swapping Functions + * + * Functions that are used to ensure that integers passed to the + * virtual machine are in small endian format. These functions are + * used to ensure that the virtual machine operates correctly on big + * endian machines. + */ +EAPI void embryo_swap_16(unsigned short *v); + +/** + * Ensures that the given unsigned integer is in the small endian + * format. + * @param v Pointer to the given integer. + * @ingroup Embryo_Swap_Group + */ +EAPI void embryo_swap_32(unsigned int *v); + +/** + * Returns the function in the given program with the given name. + * @param ep The given program. + * @param name The given function name. + * @return The function if successful. Otherwise, @c EMBRYO_FUNCTION_NONE. + * @ingroup Embryo_Func_Group + */ +EAPI Embryo_Function embryo_program_function_find(Embryo_Program *ep, const char *name); + +/** + * Retrieves the location of the public variable in the given program + * with the given name. + * @param ep The given program. + * @param name The given name. + * @return The address of the variable if found. @c EMBRYO_CELL_NONE + * otherwise. + * @ingroup Embryo_Public_Variable_Group + */ + +/** + * @defgroup Embryo_Public_Variable_Group Public Variable Access Functions + * + * In an Embryo program, a global variable can be declared public, as + * described in @ref Small_Scope_Subsection. The functions here allow + * the host program to access these public variables. + */ +EAPI Embryo_Cell embryo_program_variable_find(Embryo_Program *ep, const char *name); + +/** + * Retrieves the number of public variables in the given program. + * @param ep The given program. + * @return The number of public variables. + * @ingroup Embryo_Public_Variable_Group + */ +EAPI int embryo_program_variable_count_get(Embryo_Program *ep); + +/** + * Retrieves the location of the public variable in the given program + * with the given identifier. + * @param ep The given program. + * @param num The identifier of the public variable. + * @return The virtual machine address of the variable if found. + * @c EMBRYO_CELL_NONE otherwise. + * @ingroup Embryo_Public_Variable_Group + */ +EAPI Embryo_Cell embryo_program_variable_get(Embryo_Program *ep, int num); + +/** + * Sets the error code for the given program to the given code. + * @param ep The given program. + * @param error The given error code. + * @ingroup Embryo_Error_Group + */ + +/** + * @defgroup Embryo_Error_Group Error Functions + * + * Functions that set and retrieve error codes in Embryo programs. + */ +EAPI void embryo_program_error_set(Embryo_Program *ep, Embryo_Error error); + +/** + * Retrieves the current error code for the given program. + * @param ep The given program. + * @return The current error code. + * @ingroup Embryo_Error_Group + */ +EAPI Embryo_Error embryo_program_error_get(Embryo_Program *ep); + +/** + * Sets the data associated to the given program. + * @param ep The given program. + * @param data New bytecode data. + * @ingroup Embryo_Program_Data_Group + */ + +/** + * @defgroup Embryo_Program_Data_Group Program Data Functions + * + * Functions that set and retrieve data associated with the given + * program. + */ +EAPI void embryo_program_data_set(Embryo_Program *ep, void *data); + +/** + * Retrieves the data associated to the given program. + * @param ep The given program. + * @ingroup Embryo_Program_Data_Group + */ +EAPI void *embryo_program_data_get(Embryo_Program *ep); + +/** + * Retrieves a string describing the given error code. + * @param error The given error code. + * @return String describing the given error code. If the given code is not + * known, the string "(unknown)" is returned. + * @ingroup Embryo_Error_Group + */ +EAPI const char *embryo_error_string_get(Embryo_Error error); + +/** + * Retrieves the length of the string starting at the given cell. + * @param ep The program the cell is part of. + * @param str_cell Pointer to the first cell of the string. + * @return The length of the string. @c 0 is returned if there is an error. + * @ingroup Embryo_Data_String_Group + */ + +/** + * @defgroup Embryo_Data_String_Group Embryo Data String Functions + * + * Functions that operate on strings in the memory of a virtual machine. + */ +EAPI int embryo_data_string_length_get(Embryo_Program *ep, Embryo_Cell *str_cell); + +/** + * Copies the string starting at the given cell to the given buffer. + * @param ep The program the cell is part of. + * @param str_cell Pointer to the first cell of the string. + * @param dst The given buffer. + * @ingroup Embryo_Data_String_Group + */ +EAPI void embryo_data_string_get(Embryo_Program *ep, Embryo_Cell *str_cell, char *dst); + +/** + * Copies string in the given buffer into the virtual machine memory + * starting at the given cell. + * @param ep The program the cell is part of. + * @param src The given buffer. + * @param str_cell Pointer to the first cell to copy the string to. + * @ingroup Embryo_Data_String_Group + */ +EAPI void embryo_data_string_set(Embryo_Program *ep, const char *src, Embryo_Cell *str_cell); + +/** + * Retreives a pointer to the address in the virtual machine given by the + * given cell. + * @param ep The program whose virtual machine address is being queried. + * @param addr The given cell. + * @return A pointer to the cell at the given address. + * @ingroup Embryo_Data_String_Group + */ +EAPI Embryo_Cell *embryo_data_address_get(Embryo_Program *ep, Embryo_Cell addr); + +/** + * Increases the size of the heap of the given virtual machine by the given + * number of Embryo_Cells. + * @param ep The program with the given virtual machine. + * @param cells The given number of Embryo_Cells. + * @return The address of the new memory region on success. + * @c EMBRYO_CELL_NONE otherwise. + * @ingroup Embryo_Heap_Group + */ + +/** + * @defgroup Embryo_Heap_Group Heap Functions + * + * The heap is an area of memory that can be allocated for program + * use at runtime. The heap functions here change the amount of heap + * memory available. + */ +EAPI Embryo_Cell embryo_data_heap_push(Embryo_Program *ep, int cells); + +/** + * Decreases the size of the heap of the given virtual machine down to the + * given size. + * @param ep The program with the given virtual machine. + * @param down_to The given size. + * @ingroup Embryo_Heap_Group + */ +EAPI void embryo_data_heap_pop(Embryo_Program *ep, Embryo_Cell down_to); + +/** + * Returns the number of virtual machines are running for the given program. + * @param ep The given program. + * @return The number of virtual machines running. + * @ingroup Embryo_Run_Group + */ + +/** + * @defgroup Embryo_Run_Group Program Run Functions + * + * Functions that are involved in actually running functions in an + * Embryo program. + */ +EAPI int embryo_program_recursion_get(Embryo_Program *ep); + +/** + * Runs the given function of the given Embryo program in the current + * virtual machine. The parameter @p fn can be found using + * @ref embryo_program_function_find. + * + * @note For Embryo to be able to run a function, it must have been + * declared @c public in the Small source code. + * + * @param ep The given program. + * @param fn The given function. Normally "main", in which case the + * constant @c EMBRYO_FUNCTION_MAIN can be used. + * @return @c EMBRYO_PROGRAM_OK on success. @c EMBRYO_PROGRAM_SLEEP if the + * program is halted by the Small @c sleep call. + * @c EMBRYO_PROGRAM_FAIL if there is an error. + * @c EMBRYO_PROGRAM_TOOLONG if the program executes for longer than + * it is allowed to in abstract machine instruction count. + * @ingroup Embryo_Run_Group + */ +EAPI Embryo_Status embryo_program_run(Embryo_Program *ep, Embryo_Function func); + +/** + * Retreives the return value of the last called function of the given + * program. + * @param ep The given program. + * @return An Embryo_Cell representing the return value of the function + * that was last called. + * @ingroup Embryo_Run_Group + */ +EAPI Embryo_Cell embryo_program_return_value_get(Embryo_Program *ep); + +/** + * Sets the maximum number of abstract machine cycles any given program run + * can execute before being put to sleep and returning. + * + * @param ep The given program. + * @param max The number of machine cycles as a limit. + * + * This sets the maximum number of abstract machine (virtual machine) + * instructions that a single run of an embryo function (even if its main) + * can use before embryo embryo_program_run() reutrns with the value + * EMBRYO_PROGRAM_TOOLONG. If the function fully executes within this number + * of cycles, embryo_program_run() will return as normal with either + * EMBRYO_PROGRAM_OK, EMBRYO_PROGRAM_FAIL or EMBRYO_PROGRAM_SLEEP. If the + * run exceeds this instruction count, then EMBRYO_PROGRAM_TOOLONG will be + * returned indicating the program exceeded its run count. If the app wishes + * to continue running this anyway - it is free to process its own events or + * whatever it wants and continue the function by calling + * embryo_program_run(program, EMBRYO_FUNCTION_CONT); which will start the + * run again until the instruction count is reached. This can keep being done + * to allow the calling program to still be able to control things outside the + * embryo function being called. If the maximum run cycle count is 0 then the + * program is allowed to run forever only returning when it is done. + * + * It is important to note that abstract machine cycles are NOT the same as + * the host machine cpu cycles. They are not fixed in runtime per cycle, so + * this is more of a helper tool than a way to HARD-FORCE a script to only + * run for a specific period of time. If the cycle count is set to something + * low like 5000 or 1000, then every 1000 (or 5000) cycles control will be + * returned to the calling process where it can check a timer to see if a + * physical runtime limit has been elapsed and then abort running further + * assuming a "runaway script" or keep continuing the script run. This + * limits resolution to only that many cycles which do not take a determined + * amount of time to execute, as this varies from cpu to cpu and also depends + * on how loaded the system is. Making the max cycle run too low will + * impact performance requiring the abstract machine to do setup and teardown + * cycles too often comapred to cycles actually executed. + * + * Also note it does NOT include nested abstract machines. IF this abstract + * machine run calls embryo script that calls a native function that in turn + * calls more embryo script, then the 2nd (and so on) levels are not included + * in this run count. They can set their own max instruction count values + * separately. + * + * The default max cycle run value is 0 in any program until set with this + * function. + * + * @ingroup Embryo_Run_Group + */ +EAPI void embryo_program_max_cycle_run_set(Embryo_Program *ep, int max); + +/** + * Retreives the maximum number of abstract machine cycles a program is allowed + * to run. + * @param ep The given program. + * @return The number of cycles a run cycle is allowed to run for this + * program. + * + * This returns the value set by embryo_program_max_cycle_run_set(). See + * embryo_program_max_cycle_run_set() for more information. + * + * @ingroup Embryo_Run_Group + */ +EAPI int embryo_program_max_cycle_run_get(Embryo_Program *ep); + +/** + * Pushes an Embryo_Cell onto the function stack to use as a parameter for + * the next function that is called in the given program. + * @param ep The given program. + * @param cell The Embryo_Cell to push onto the stack. + * @return @c 1 if successful. @c 0 otherwise. + * @ingroup Embryo_Parameter_Group + */ + +/** + * @defgroup Embryo_Parameter_Group Function Parameter Functions + * + * Functions that set parameters for the next function that is called. + */ +EAPI int embryo_parameter_cell_push(Embryo_Program *ep, Embryo_Cell cell); + +/** + * Pushes a string onto the function stack to use as a parameter for the + * next function that is called in the given program. + * @param ep The given program. + * @param str The string to push onto the stack. + * @return @c 1 if successful. @c 0 otherwise. + * @ingroup Embryo_Parameter_Group + */ +EAPI int embryo_parameter_string_push(Embryo_Program *ep, const char *str); + +/** + * Pushes an array of Embryo_Cells onto the function stack to be used as + * parameters for the next function that is called in the given program. + * @param ep The given program. + * @param cells The array of Embryo_Cells. + * @param num The number of cells in @p cells. + * @return @c 1 if successful. @c 0 otherwise. + * @ingroup Embryo_Parameter_Group + */ +EAPI int embryo_parameter_cell_array_push(Embryo_Program *ep, Embryo_Cell *cells, int num); #ifdef __cplusplus }