SectrPrototype/code/host/host.odin

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package host
import "core:dynlib"
import "core:io"
import "core:fmt"
import "core:log"
import "core:mem"
import "core:mem/virtual"
Byte :: 1
Kilobyte :: 1024 * Byte
Megabyte :: 1024 * Kilobyte
Gigabyte :: 1024 * Megabyte
Terabyte :: 1024 * Gigabyte
Petabyte :: 1024 * Terabyte
Exabyte :: 1024 * Petabyte
import "core:os"
import "core:runtime"
import "core:strings"
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import "core:time"
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import rl "vendor:raylib"
import sectr "../."
TrackedAllocator :: sectr.TrackedAllocator
tracked_allocator :: sectr.tracked_allocator
tracked_allocator_init :: sectr.tracked_allocator_init
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path_snapshot :: "VMemChunk_1.snapshot"
when ODIN_OS == runtime.Odin_OS_Type.Windows
{
path_sectr_module :: "sectr.dll"
path_sectr_live_module :: "sectr_live.dll"
path_sectr_debug_symbols :: "sectr.pdb"
}
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RuntimeState :: struct {
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running : b32,
memory : VMemChunk,
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sectr_api : sectr.ModuleAPI,
}
VMemChunk :: struct {
og_allocator : mem.Allocator,
og_temp_allocator : mem.Allocator,
host_persistent : TrackedAllocator,
host_transient : TrackedAllocator,
sectr_live : virtual.Arena,
sectr_snapshot : virtual.Arena
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}
setup_memory :: proc () -> VMemChunk
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{
Arena :: mem.Arena
Tracking_Allocator :: mem.Tracking_Allocator
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memory : VMemChunk; using memory
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host_persistent_size :: 32 * Megabyte
host_transient_size :: 96 * Megabyte
internals_size :: 4 * Megabyte
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host_persistent = tracked_allocator_init( host_persistent_size, internals_size )
host_transient = tracked_allocator_init( host_transient_size, internals_size )
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// Setup the static arena for the entire application
if result := virtual.arena_init_static( & sectr_live, sectr.memory_chunk_size, sectr.memory_chunk_size );
result != runtime.Allocator_Error.None
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{
// TODO(Ed) : Setup a proper logging interface
fmt. printf( "Failed to allocate memory for the sectr module" )
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runtime.debug_trap()
os. exit( -1 )
// TODO(Ed) : Figure out the error code enums..
}
// Reassign default allocators for host
memory.og_allocator = context.allocator
memory.og_temp_allocator = context.temp_allocator
context.allocator = tracked_allocator( & memory.host_persistent )
context.temp_allocator = tracked_allocator( & memory.host_transient )
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return memory;
}
load_sectr_api :: proc ( version_id : i32 ) -> sectr.ModuleAPI
{
loaded_module : sectr.ModuleAPI
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write_time,
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result := os.last_write_time_by_name("sectr.dll")
if result != os.ERROR_NONE {
fmt. println("Could not resolve the last write time for sectr.dll")
runtime.debug_trap()
return {}
}
live_file := path_sectr_live_module
sectr.copy_file_sync( path_sectr_module, live_file )
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lib, load_result := dynlib.load_library( live_file )
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if ! load_result {
// TODO(Ed) : Setup a proper logging interface
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fmt. println( "Failed to load the sectr module." )
runtime.debug_trap()
return {}
}
startup := cast( type_of( sectr.startup )) dynlib.symbol_address( lib, "startup" )
shutdown := cast( type_of( sectr.sectr_shutdown )) dynlib.symbol_address( lib, "sectr_shutdown" )
reload := cast( type_of( sectr.reload )) dynlib.symbol_address( lib, "reload" )
update := cast( type_of( sectr.update )) dynlib.symbol_address( lib, "update" )
render := cast( type_of( sectr.render )) dynlib.symbol_address( lib, "render" )
clean_temp := cast( type_of( sectr.clean_temp )) dynlib.symbol_address( lib, "clean_temp" )
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missing_symbol : b32 = false
if startup == nil do fmt.println("Failed to load sectr.startup symbol")
if shutdown == nil do fmt.println("Failed to load sectr.shutdown symbol")
if reload == nil do fmt.println("Failed to load sectr.reload symbol")
if update == nil do fmt.println("Failed to load sectr.update symbol")
if render == nil do fmt.println("Failed to load sectr.render symbol")
if clean_temp == nil do fmt.println("Failed to load sector.clean_temp symbol")
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if missing_symbol {
runtime.debug_trap()
return {}
}
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loaded_module = {
lib = lib,
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write_time = write_time,
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lib_version = version_id,
startup = startup,
shutdown = shutdown,
reload = reload,
update = update,
render = render,
clean_temp = clean_temp,
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}
return loaded_module
}
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unload_sectr_api :: proc ( module : ^ sectr.ModuleAPI )
{
dynlib.unload_library( module.lib )
os.remove( path_sectr_live_module )
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module^ = {}
}
sync_sectr_api :: proc ( sectr_api : ^ sectr.ModuleAPI, memory : ^ VMemChunk )
{
if write_time, result := os.last_write_time_by_name( path_sectr_module );
result == os.ERROR_NONE && sectr_api.write_time != write_time
{
version_id := sectr_api.lib_version + 1
unload_sectr_api( sectr_api )
// Wait for pdb to unlock (linker may still be writting)
for ; sectr.is_file_locked( path_sectr_debug_symbols ) && sectr.is_file_locked( path_sectr_live_module ); {}
time.sleep( time.Millisecond )
sectr_api ^ = load_sectr_api( version_id )
if sectr_api.lib_version == 0 {
fmt.println("Failed to hot-reload the sectr module")
runtime.debug_trap()
os.exit(-1)
// TODO(Ed) : Figure out the error code enums..
}
sectr_api.reload( & memory.sectr_live, & memory.sectr_snapshot )
}
}
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main :: proc()
{
fmt.println("Hellope!")
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state : RuntimeState
using state
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// Basic Giant VMem Block
{
// By default odin uses a growing arena for the runtime context
// We're going to make it static for the prototype and separate it from the 'project' memory.
// Then shove the context allocator for the engine to it.
// The project's context will use its own subsection arena allocator.
memory = setup_memory()
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}
// Load the Enviornment API for the first-time
{
sectr_api = load_sectr_api( 1 )
if sectr_api.lib_version == 0 {
// TODO(Ed) : Setup a proper logging interface
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fmt. println( "Failed to initially load the sectr module" )
runtime.debug_trap()
os. exit( -1 )
// TODO(Ed) : Figure out the error code enums..
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}
}
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running = true;
memory = memory
sectr_api = sectr_api
sectr_api.startup( & memory.sectr_live, & memory.sectr_snapshot )
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// TODO(Ed) : This should have an end status so that we know the reason the engine stopped.
for ; running ;
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{
// Hot-Reload
sync_sectr_api( & sectr_api, & memory )
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running = sectr_api.update()
sectr_api.render()
sectr_api.clean_temp()
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}
// Determine how the run_cyle completed, if it failed due to an error,
// fallback the env to a failsafe state and reload the run_cycle.
{
// TODO(Ed): Implement this.
}
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sectr_api.shutdown()
unload_sectr_api( & sectr_api )
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}