LUMIERA.clone/tests/core/steam/engine/node-builder-test.cpp

/*
  NodeBuilder(Test)  -  creation and setup of render nodes

   Copyright (C)
     2024,            Hermann Vosseler <Ichthyostega@web.de>

  **Lumiera** is free software; you can redistribute it and/or modify it
  under the terms of the GNU General Public License as published by the
  Free Software Foundation; either version 2 of the License, or (at your
  option) any later version. See the file COPYING for further details.

* *****************************************************************/

/** @file node-builder-test.cpp
 ** Unit test \ref NodeBuilder_test demonstrates how to build render nodes.
 */


#include "lib/test/run.hpp"
#include "steam/engine/node-builder.hpp"
#include "steam/engine/diagnostic-buffer-provider.hpp"
#include "steam/asset/meta/time-grid.hpp"
#include "lib/test/diagnostic-output.hpp"
#include "lib/time/timequant.hpp"
#include "lib/time/timecode.hpp"
#include "lib/symbol.hpp"
//#include "lib/util.hpp"

using lib::Symbol;
using std::string;
using lib::time::Time;
using lib::time::QuTime;
using lib::time::FrameNr;
using lib::time::SmpteTC;


namespace steam {
namespace engine{
namespace test  {
  
  namespace {
    Symbol SECONDS_GRID = "grid_sec";
  }
  
  
  /***************************************************************//**
   * @test creating and configuring various kinds of Render Nodes.
   */
  class NodeBuilder_test : public Test
    {
      virtual void
      run (Arg)
        {
          seedRand();                // used for simple time-based „automation“
          steam::asset::meta::TimeGrid::build (SECONDS_GRID, 1);
          
          build_simpleNode();
          build_Node_fixedParam();
          build_Node_dynamicParam();
          build_connectedNodes();
          build_ParamNode();
        }
      
      
      /** @test build a simple output-only Render Node
       * @todo 12/24 ✔ define ⟶ ✔ implement
       */
      void
      build_simpleNode()
        {
          auto fun = [](uint* buff){ *buff = LIFE_AND_UNIVERSE_4EVER; };
          
          ProcNode node{prepareNode("Test")
                          .preparePort()
                            .invoke("fun()", fun)
                            .completePort()
                          .build()};
          
          CHECK (watch(node).isSrc());
          CHECK (watch(node).ports().size() == 1);
          
          CHECK (LIFE_AND_UNIVERSE_4EVER == invokeRenderNode (node));
        }
      
      /**
       * @internal Helper for Render Node invocation
       *  - use a DiagnosticBufferProvider to allocate a result buffer
       *  - assuming that the Node internally does not allocate further buffers
       *  - pull from Port #0 of the given node, passing the \a nomTime as argument
       *  - expect the buffer to hold a single `uint` value after invocation
       */
      uint
      invokeRenderNode (ProcNode& theNode, Time nomTime =Time::ZERO)
        {
          BufferProvider& provider = DiagnosticBufferProvider::build();
          BuffHandle buff = provider.lockBufferFor<long> (-55);
          ProcessKey key{0};
          uint port{0};
          
          CHECK (-55 == buff.accessAs<long>());
          
          // Trigger Node invocation...
          buff = theNode.pull (port, buff, nomTime, key);
          
          uint result = buff.accessAs<uint>();
          buff.release();
          return result;
        }
      
      
      /** @test build a Node with a fixed invocation parameter
       * @todo 12/24 ✔ define ⟶ ✔ implement
       */
      void
      build_Node_fixedParam()
        {
          auto procFun =  [](ushort param, uint* buff){ *buff = param; };
          
          ProcNode node{prepareNode("Test")
                          .preparePort()
                            .invoke("fun()", procFun)
                            .setParam (LIFE_AND_UNIVERSE_4EVER)
                            .completePort()
                          .build()};
          
          CHECK (LIFE_AND_UNIVERSE_4EVER == invokeRenderNode (node));
        }
      
      
      /** @test build a Node with dynamically generated parameter
       *      - use a processing function which takes a parameter
       *      - use an _automation functor,_ which just quantises
       *        the time into an implicitly defined grid
       *      - install both into a render node
       *      - set a random _nominal time_ for invocation
       * @todo 12/24 ✔ define ⟶ ✔ implement
       */
      void
      build_Node_dynamicParam()
        {
          auto procFun = [](long param, int* buff){ *buff = int(param); };
          auto autoFun = [](Time nomTime){ return FrameNr::quant (nomTime, SECONDS_GRID); };
          
          ProcNode node{prepareNode("Test")
                          .preparePort()
                            .invoke("fun()", procFun)
                            .attachAutomation (autoFun)
                            .completePort()
                          .build()};
          
          // invoke with a random »nominal Time« <10s with ms granularity
          Time theTime{rani(10'000),0};
          int res = invokeRenderNode (node, theTime);
          
          // for verification: quantise the given Time into SMPTE timecode;
          QuTime qantTime (theTime, SECONDS_GRID);
          CHECK (res == SmpteTC(qantTime).secs);
          // Explanation: since the param-functor quantises into a 1-second grid
          //              and the given time is below 1 minute, the seconds field
          //              of SMPTE Timecode should match the parameter value
        }
      
      
      /** @test TODO build a chain with two connected Nodes
       * @todo WIP 12/24 define ⟶ implement
       */
      void
      build_connectedNodes()
        {
          UNIMPLEMENTED ("build two linked nodes");
        }
      
      
      /** @test TODO 
       * @todo WIP 12/24 🔁 define ⟶ implement
       */
      void
      build_ParamNode()
        {
          UNIMPLEMENTED ("build ParamNode + follow-up-Node");
        }
    };
  
  
  /** Register this test class... */
  LAUNCHER (NodeBuilder_test, "unit node");
  
  
}}} // namespace steam::engine::test
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								/*
 								  NodeBuilder(Test)  -  creation and setup of render nodes
 								   Copyright (C)
 ,            Hermann Vosseler <Ichthyostega@web.de>
 								  **Lumiera** is free software; you can redistribute it and/or modify it
 								  under the terms of the GNU General Public License as published by the
 								  Free Software Foundation; either version 2 of the License, or (at your
 								  option) any later version. See the file COPYING for further details.
 								* *****************************************************************/
 								/** @file node-builder-test.cpp
-												Invocation: rearrange the Render Node development tests

This is an attempt to take aim at the next step,
which is to fill in the missing part for an actual node invocation...

''...still fighting to get ahead, due to complexity of involced concerns...''

											
										
										
											2024-12-06 23:43:18 +01:00
+								 ** Unit test \ref NodeBuilder_test demonstrates how to build render nodes.
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								 */
 								#include "lib/test/run.hpp"
 								#include "steam/engine/node-builder.hpp"
-												Invocation: investigate forwarding an output data block

This investigation started out as solving an already solved problem...
I'll continue this as a design exercise non the less.

__Some explanation__: To achieve the goal of invoking a Node end-to-end,
the gap between the `Port` API, the `ProcNode` API and the `RenderInvocation` must be closed.
This leads to questions of API design: ''what core operation should the `ProcNode` API expose?''
 * is `ProcNode` just a forwarding / delegating container and becoming redundant?
 * or does the API rather move in the direction of an ''Exit Node''?

This leads to the question how the opened `OutputSlot` can be exposed as a `BuffHandle`
to allow to set off the recursive Node invocation. As it turns out, the onerous for this step
lies on the actual `OutputSlot` implementation, since the API and output protocol already requires
to expose a `BuffHandle`. Yet there is no "real" implementation available, just a Mock setup based
on `DiagnosticBufferProvider`, which obviously can just be passed-through.

Which leaves me with mixed feelings. For one it is conveninent to skip this topic for now,
but on the other hand the design of `BufferProvider` does not seem well suited for such an proxying task.
Thus I decided to explore this aspect in the form of a prototyping test....

											
										
										
											2024-12-22 22:31:05 +01:00
+								#include "steam/engine/diagnostic-buffer-provider.hpp"
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								#include "steam/asset/meta/time-grid.hpp"
-												Invocation: able to build and invoke a simple Render Node (see: #1367)

**This is a Milestone for the Render Engine integration effort**

After various rounds of prototyping and refactoring,
the Render Node builder and invocation code is now able to
 * bind a simple function
 * handle arbitrary input / output and parameter types
 * invoke a Render Node configured with this function

											
										
										
											2024-12-24 06:23:55 +01:00
+								#include "lib/test/diagnostic-output.hpp"
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								#include "lib/time/timequant.hpp"
 								#include "lib/time/timecode.hpp"
 								#include "lib/symbol.hpp"
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								//#include "lib/util.hpp"
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								using lib::Symbol;
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								using std::string;
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								using lib::time::Time;
 								using lib::time::QuTime;
 								using lib::time::FrameNr;
 								using lib::time::SmpteTC;
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
 								namespace steam {
 								namespace engine{
 								namespace test  {
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								  namespace {
 								    Symbol SECONDS_GRID = "grid_sec";
 								  }
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
 								  /***************************************************************//**
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								   * @test creating and configuring various kinds of Render Nodes.
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								   */
 								  class NodeBuilder_test : public Test
 								    {
 								      virtual void
 								      run (Arg)
 								        {
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								          seedRand();                // used for simple time-based „automation“
 								          steam::asset::meta::TimeGrid::build (SECONDS_GRID, 1);
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								          build_simpleNode();
 								          build_Node_fixedParam();
 								          build_Node_dynamicParam();
 								          build_connectedNodes();
 								          build_ParamNode();
 								        }
-												Invocation: able to build and invoke a simple Render Node (see: #1367)

**This is a Milestone for the Render Engine integration effort**

After various rounds of prototyping and refactoring,
the Render Node builder and invocation code is now able to
 * bind a simple function
 * handle arbitrary input / output and parameter types
 * invoke a Render Node configured with this function

											
										
										
											2024-12-24 06:23:55 +01:00
+								      /** @test build a simple output-only Render Node
 								       * @todo 12/24 ✔ define ⟶ ✔ implement
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								       */
 								      void
 								      build_simpleNode()
 								        {
 								          auto fun = [](uint* buff){ *buff = LIFE_AND_UNIVERSE_4EVER; };
 								          ProcNode node{prepareNode("Test")
 								                          .preparePort()
 								                            .invoke("fun()", fun)
 								                            .completePort()
 								                          .build()};
 								          CHECK (watch(node).isSrc());
 								          CHECK (watch(node).ports().size() == 1);
-												Invocation: investigate forwarding an output data block

This investigation started out as solving an already solved problem...
I'll continue this as a design exercise non the less.

__Some explanation__: To achieve the goal of invoking a Node end-to-end,
the gap between the `Port` API, the `ProcNode` API and the `RenderInvocation` must be closed.
This leads to questions of API design: ''what core operation should the `ProcNode` API expose?''
 * is `ProcNode` just a forwarding / delegating container and becoming redundant?
 * or does the API rather move in the direction of an ''Exit Node''?

This leads to the question how the opened `OutputSlot` can be exposed as a `BuffHandle`
to allow to set off the recursive Node invocation. As it turns out, the onerous for this step
lies on the actual `OutputSlot` implementation, since the API and output protocol already requires
to expose a `BuffHandle`. Yet there is no "real" implementation available, just a Mock setup based
on `DiagnosticBufferProvider`, which obviously can just be passed-through.

Which leaves me with mixed feelings. For one it is conveninent to skip this topic for now,
but on the other hand the design of `BufferProvider` does not seem well suited for such an proxying task.
Thus I decided to explore this aspect in the form of a prototyping test....

											
										
										
											2024-12-22 22:31:05 +01:00
-												Invocation: integrate passing a parameter-functor into the NodeBuilder

This required some ''type massaging'' to construct the proper follow-up builder type;
other than that, all components work together as expected.

This can be demonstrated both in a direct setup and using the builder.

											
										
										
											2024-12-26 21:42:32 +01:00
+								          CHECK (LIFE_AND_UNIVERSE_4EVER == invokeRenderNode (node));
 								        }
 								      /**
 								       * @internal Helper for Render Node invocation
 								       *  - use a DiagnosticBufferProvider to allocate a result buffer
 								       *  - assuming that the Node internally does not allocate further buffers
 								       *  - pull from Port #0 of the given node, passing the \a nomTime as argument
 								       *  - expect the buffer to hold a single `uint` value after invocation
 								       */
 								      uint
 								      invokeRenderNode (ProcNode& theNode, Time nomTime =Time::ZERO)
 								        {
-												Invocation: investigate forwarding an output data block

This investigation started out as solving an already solved problem...
I'll continue this as a design exercise non the less.

__Some explanation__: To achieve the goal of invoking a Node end-to-end,
the gap between the `Port` API, the `ProcNode` API and the `RenderInvocation` must be closed.
This leads to questions of API design: ''what core operation should the `ProcNode` API expose?''
 * is `ProcNode` just a forwarding / delegating container and becoming redundant?
 * or does the API rather move in the direction of an ''Exit Node''?

This leads to the question how the opened `OutputSlot` can be exposed as a `BuffHandle`
to allow to set off the recursive Node invocation. As it turns out, the onerous for this step
lies on the actual `OutputSlot` implementation, since the API and output protocol already requires
to expose a `BuffHandle`. Yet there is no "real" implementation available, just a Mock setup based
on `DiagnosticBufferProvider`, which obviously can just be passed-through.

Which leaves me with mixed feelings. For one it is conveninent to skip this topic for now,
but on the other hand the design of `BufferProvider` does not seem well suited for such an proxying task.
Thus I decided to explore this aspect in the form of a prototyping test....

											
										
										
											2024-12-22 22:31:05 +01:00
+								          BufferProvider& provider = DiagnosticBufferProvider::build();
-												Invocation: able to build and invoke a simple Render Node (see: #1367)

**This is a Milestone for the Render Engine integration effort**

After various rounds of prototyping and refactoring,
the Render Node builder and invocation code is now able to
 * bind a simple function
 * handle arbitrary input / output and parameter types
 * invoke a Render Node configured with this function

											
										
										
											2024-12-24 06:23:55 +01:00
+								          BuffHandle buff = provider.lockBufferFor<long> (-55);
 								          ProcessKey key{0};
 								          uint port{0};
 								          CHECK (-55 == buff.accessAs<long>());
 								          // Trigger Node invocation...
-												Invocation: integrate passing a parameter-functor into the NodeBuilder

This required some ''type massaging'' to construct the proper follow-up builder type;
other than that, all components work together as expected.

This can be demonstrated both in a direct setup and using the builder.

											
										
										
											2024-12-26 21:42:32 +01:00
+								          buff = theNode.pull (port, buff, nomTime, key);
-												Invocation: investigate forwarding an output data block

This investigation started out as solving an already solved problem...
I'll continue this as a design exercise non the less.

__Some explanation__: To achieve the goal of invoking a Node end-to-end,
the gap between the `Port` API, the `ProcNode` API and the `RenderInvocation` must be closed.
This leads to questions of API design: ''what core operation should the `ProcNode` API expose?''
 * is `ProcNode` just a forwarding / delegating container and becoming redundant?
 * or does the API rather move in the direction of an ''Exit Node''?

This leads to the question how the opened `OutputSlot` can be exposed as a `BuffHandle`
to allow to set off the recursive Node invocation. As it turns out, the onerous for this step
lies on the actual `OutputSlot` implementation, since the API and output protocol already requires
to expose a `BuffHandle`. Yet there is no "real" implementation available, just a Mock setup based
on `DiagnosticBufferProvider`, which obviously can just be passed-through.

Which leaves me with mixed feelings. For one it is conveninent to skip this topic for now,
but on the other hand the design of `BufferProvider` does not seem well suited for such an proxying task.
Thus I decided to explore this aspect in the form of a prototyping test....

											
										
										
											2024-12-22 22:31:05 +01:00
-												Invocation: integrate passing a parameter-functor into the NodeBuilder

This required some ''type massaging'' to construct the proper follow-up builder type;
other than that, all components work together as expected.

This can be demonstrated both in a direct setup and using the builder.

											
										
										
											2024-12-26 21:42:32 +01:00
+								          uint result = buff.accessAs<uint>();
 								          buff.release();
 								          return result;
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								        }
-												Invocation: provide simplified API to inject fixed parameter values

 * ...by defining a parameter-functor to »drop off« a given value
 * ...also add a static sanity check to reject unsuitable parameter-functor \\
   (e.g. for a processing-functor with different or even no parameters)

											
										
										
											2024-12-27 03:55:06 +01:00
+								      /** @test build a Node with a fixed invocation parameter
 								       * @todo 12/24 ✔ define ⟶ ✔ implement
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								       */
 								      void
 								      build_Node_fixedParam()
 								        {
-												Invocation: integrate passing a parameter-functor into the NodeBuilder

This required some ''type massaging'' to construct the proper follow-up builder type;
other than that, all components work together as expected.

This can be demonstrated both in a direct setup and using the builder.

											
										
										
											2024-12-26 21:42:32 +01:00
+								          auto procFun =  [](ushort param, uint* buff){ *buff = param; };
 								          ProcNode node{prepareNode("Test")
 								                          .preparePort()
-												Invocation: provide simplified API to inject fixed parameter values

 * ...by defining a parameter-functor to »drop off« a given value
 * ...also add a static sanity check to reject unsuitable parameter-functor \\
   (e.g. for a processing-functor with different or even no parameters)

											
										
										
											2024-12-27 03:55:06 +01:00
+								                            .invoke("fun()", procFun)
 								                            .setParam (LIFE_AND_UNIVERSE_4EVER)
-												Invocation: integrate passing a parameter-functor into the NodeBuilder

This required some ''type massaging'' to construct the proper follow-up builder type;
other than that, all components work together as expected.

This can be demonstrated both in a direct setup and using the builder.

											
										
										
											2024-12-26 21:42:32 +01:00
+								                            .completePort()
 								                          .build()};
 								          CHECK (LIFE_AND_UNIVERSE_4EVER == invokeRenderNode (node));
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								        }
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								      /** @test build a Node with dynamically generated parameter
 								       *      - use a processing function which takes a parameter
 								       *      - use an _automation functor,_ which just quantises
 								       *        the time into an implicitly defined grid
 								       *      - install both into a render node
 								       *      - set a random _nominal time_ for invocation
 								       * @todo 12/24 ✔ define ⟶ ✔ implement
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								       */
 								      void
 								      build_Node_dynamicParam()
 								        {
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								          auto procFun = [](long param, int* buff){ *buff = int(param); };
 								          auto autoFun = [](Time nomTime){ return FrameNr::quant (nomTime, SECONDS_GRID); };
 								          ProcNode node{prepareNode("Test")
 								                          .preparePort()
 								                            .invoke("fun()", procFun)
 								                            .attachAutomation (autoFun)
 								                            .completePort()
 								                          .build()};
 								          // invoke with a random »nominal Time« <10s with ms granularity
 								          Time theTime{rani(10'000),0};
 								          int res = invokeRenderNode (node, theTime);
 								          // for verification: quantise the given Time into SMPTE timecode;
 								          QuTime qantTime (theTime, SECONDS_GRID);
 								          CHECK (res == SmpteTC(qantTime).secs);
 								          // Explanation: since the param-functor quantises into a 1-second grid
 								          //              and the given time is below 1 minute, the seconds field
 								          //              of SMPTE Timecode should match the parameter value
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								        }
 								      /** @test TODO build a chain with two connected Nodes
 								       * @todo WIP 12/24 define ⟶ implement
 								       */
 								      void
 								      build_connectedNodes()
 								        {
 								          UNIMPLEMENTED ("build two linked nodes");
 								        }
 								      /** @test TODO
-												Invocation: implement support for simple time-based automation

Actually this is now quite easy to implement, as a shortcut on top of generic functionality;
just in this case the param-functor takes a Time value as argument.
So its more a matter of documentation to provide a dedicated hook for this common case.

											
										
										
											2025-01-05 01:01:15 +01:00
+								       * @todo WIP 12/24 🔁 define ⟶ implement
-												Invocation: resume integration of Node building

After this extended excursion to lift the internals of Node invocation
to the use of structured and typed data (notably the invocation parameters),
the »Playback Vertical Slice« continues to push ahead towards the goal of integration.

The existing code has been re-oriented and some aspects of node invocation have been reworked
in a prototyping effort, which (in part though the aforementioned rework)
is meanwhile on a good path to lead to a consolidated final version.
 * ✔ building a simple Render Node works now with the revamped code
 * 🔁invoking this simple Node ''should be just one step away'' (since all parts are known to work)
 * ⌛ the next step would then be to build a Node outfitted with a ''Parameter Functor'', which is the new concept introduced by recent changes
 * ⌛ this should then get us at the point to take the hurdle of invoking one of our **Random Test** functions as a Render Node

											
										
										
											2024-12-22 19:46:02 +01:00
+								       */
 								      void
 								      build_ParamNode()
 								        {
 								          UNIMPLEMENTED ("build ParamNode + follow-up-Node");
 								        }
-												Invocation: establish a concept how to handle parameter data

This was an extended digression into architecture planning,
which became necessary in order to suitably map out the role
for the `TurnoutSystem` — which can now be defined as ''mediator''
to connect and forward control- and parameter data while specific
render invocation proceeds through the render node network.

											
										
										
											2024-12-05 23:58:22 +01:00
+								    };
 								  /** Register this test class... */
 								  LAUNCHER (NodeBuilder_test, "unit node");
 								}}} // namespace steam::engine::test