From 53d3c84fbf4d8b886e86bcfe80f84438cb216c35 Mon Sep 17 00:00:00 2001
From: =?UTF-8?q?Miloslav=20=C4=8C=C3=AD=C5=BE?= <tastyfish@seznam.cz>
Date: Sun, 21 Jun 2020 17:24:35 +0200
Subject: [PATCH] Update tests

---
 README.md                                    | 25 ++++++-
 programs/helloWorld.c                        | 74 ++++++++++++++++++++
 programs/{helloTerminal.c => testTerminal.c} | 69 ++++++------------
 3 files changed, 121 insertions(+), 47 deletions(-)
 create mode 100644 programs/helloWorld.c
 rename programs/{helloTerminal.c => testTerminal.c} (67%)

diff --git a/README.md b/README.md
index a280bc7..f2b4db1 100644
--- a/README.md
+++ b/README.md
@@ -39,7 +39,16 @@ PC (SDL, offline rendering, terminal):
 - **Different drawing strategies** to choose from: none, z-buffer (none, full, reduced), triangle sorting (back-to-front, fron-to-back with stencil buffer).
 - Triangles provide **barycentric coordinates**, thanks to which practically anything that can be achieved with OpenGL can be achieved (texturing, shading, normal-mapping, texture fitering, transparency, PBR, shadow mapping, MIP mapping, ...).
 - **Top-left rasterization rule**, pixels of adjacent triangles don't overlap or have holes (just like in OpenGL).
-- **Tested on multiple platforms** (PC, Pokitto, Gamebuino META).
+- **Tested on many platforms**:
+  - PC (little endian, 64bit GNU)
+  - PowerPC emulator (big endian)
+  - compilers: gcc, clang
+  - Arduboy (only experimental)
+  - Gamebuino META (32bit resource-limited embedded ARM)
+  - TODO:
+    - Android
+    - Windows
+    - emscripten (web browser, JavaScript transpile)
 - **Many compile-time options** to tune the performance vs quality.
 - **Similar to OpenGL** in principle, but simpler, easier to use, with higher-level features.
 - **Tools** (Python scripts) for converting 3D models and textures to C array format used by the library.
@@ -51,8 +60,22 @@ be an as-is set of tools that the users is welcome to adjust for their
 specific project. So new features will be preferred to keeping the same
 interface.
 
+## why?
+
+You just need to make a small mini 3D game, quick 3D animation or visualization and don't want to go through the horror of learning and setting
+up OpenGL, installing drivers and libraries? Don't want to be tied to HW, 3rd party API or libraries and their dependencies? Don't want to install
+gigabytes of heavy super ultra graphics engines just for playing around with a few low poly models? You want to create extremely portable 3D
+graphics that will run on small and obscure platforms that don't have OpenGL, good specs or even standard C library? Want to just render something
+offline simply and not caring about highest rendering speed? You want to toy around with modifying something in the rendering pipeline that you
+can't easily do or debug in OpenGL (such as the rasterization algorithm)? Want to hack around in the demo scene? Want to create something public
+domain and need a public domain renderer? Or just don't want to be bothered by conditions such as proper attribution or copyleft?
+
+This library may help you.
+
 ## limitations
 
+And advantages at the same time :)
+
 - **No scenegraph** (object parenting), just a scene list. Parenting can still be achieved by using cutom transform matrices.
 - Though performance is high, due to multiplatformness it **probably can't match platform-specific rasterizers written in assembly**.
 - There is **no far plane**.
diff --git a/programs/helloWorld.c b/programs/helloWorld.c
new file mode 100644
index 0000000..4298137
--- /dev/null
+++ b/programs/helloWorld.c
@@ -0,0 +1,74 @@
+/**
+  Simple hello world for small3dlib. Renders a triangle in terminal as ASCII.
+
+  by drummyfish, released under CC0 1.0, public domain
+*/
+
+#include <stdio.h> // for IO
+
+// This tells the library the resolution of our ASCII screen.
+#define S3L_RESOLUTION_X 64
+#define S3L_RESOLUTION_Y 30
+
+// This tells the library the name of a function we use to write pixels.
+#define S3L_PIXEL_FUNCTION drawPixel
+
+#include "../small3dlib.h" // now include the library
+
+#define U S3L_FRACTIONS_PER_UNIT // this is the library unit, like e.g. 1 meter
+
+S3L_Unit triangleVertices[]   = {  // x,   y,   z 
+                                      U,   0,   0,     // vertex 1
+                                      0,   U,   0,     // vertex 2
+                                     -U,   U/2, 0 };   // vertex 3
+
+S3L_Index triangleTriangles[] = { 0, 1, 2 }; // our single triangle
+
+#undef U
+
+#define SCREEN_SIZE (S3L_RESOLUTION_X * S3L_RESOLUTION_Y)
+
+char screen[SCREEN_SIZE]; // our ASCII screen
+
+/* This function will be called by the library to draw individual rasterized
+ pixels to our screen. We should try to make this function as fast as possible
+ as it tends to be the performance bottle neck. */
+void drawPixel(S3L_PixelInfo *p)
+{
+  screen[p->y * S3L_RESOLUTION_X + p->x] = 'X';
+}
+
+int main()
+{
+  for (int i = 0; i < SCREEN_SIZE; ++i) // init the screen
+    screen[i] = '.';
+
+  S3L_Model3D triangleModel; // 3D model representing our triangle
+  S3L_initModel3D(triangleVertices,9,triangleTriangles,1,&triangleModel);
+
+  S3L_Scene scene;           // scene of 3D models (we only have 1)
+  S3L_initScene(&triangleModel,1,&scene);
+
+  // shift the camera a little bit so that we can see the triangle
+  scene.camera.transform.translation.z = -2 * S3L_FRACTIONS_PER_UNIT;
+  scene.camera.transform.translation.y = S3L_FRACTIONS_PER_UNIT / 2;
+
+  S3L_newFrame();            // has to be called before each frame
+  S3L_drawScene(scene);      /* this starts the scene rendering, the library
+                                will now start calling our drawPixel function to
+                                render the camera view */
+  int index = 0;
+
+  for (int y = 0; y < S3L_RESOLUTION_Y; ++y) // now display the screen
+  {
+    for (int x = 0; x < S3L_RESOLUTION_X; ++x)
+    {
+      putchar(screen[index]);
+      index++;
+    }
+
+    putchar('\n');
+  }
+
+  return 0; // done!
+}
diff --git a/programs/helloTerminal.c b/programs/testTerminal.c
similarity index 67%
rename from programs/helloTerminal.c
rename to programs/testTerminal.c
index 6c930f8..d60224e 100644
--- a/programs/helloTerminal.c
+++ b/programs/testTerminal.c
@@ -1,26 +1,22 @@
-/*
+/**
   Simple example of small3dlib, rendering in terminal.
 
-  license: CC0 1.0
+  by drummyfish, released under CC0 1.0, public domain
 */
 
 #include <stdio.h>
-#include <unistd.h>  // for usleep
+#include <unistd.h> // for usleep
 
 // we need to define screen resolution before including the library:
-
 #define S3L_RESOLUTION_X 80
 #define S3L_RESOLUTION_Y 40
 
 // and a name of the function we'll be using to draw individual pixels:
-
 #define S3L_PIXEL_FUNCTION drawPixel
 
-// now include the library:
+#include "../small3dlib.h" // now include the library
 
-#include "../small3dlib.h"
-
-// we'll use a predefined geometry of a cube that's in the library:
+// we'll use a predefined geometry of a cube from the library:
 
 S3L_Unit cubeVertices[] = { S3L_CUBE_VERTICES(S3L_FRACTIONS_PER_UNIT) };
 S3L_Index cubeTriangles[] = { S3L_CUBE_TRIANGLES };
@@ -28,7 +24,10 @@ S3L_Index cubeTriangles[] = { S3L_CUBE_TRIANGLES };
 S3L_Model3D cubeModel; // 3D model, has a geometry, position, rotation etc.
 S3L_Scene scene;       // scene we'll be rendring (can have multiple models)
 
-uint8_t screen[S3L_RESOLUTION_X * S3L_RESOLUTION_Y];    // our screen
+#define FRAME_OFFSET 20 // how many newlines will be printed before each frame
+#define SCREEN_SIZE (FRAME_OFFSET + (S3L_RESOLUTION_X + 1) * S3L_RESOLUTION_Y + 1)
+
+uint8_t screen[SCREEN_SIZE]; // ASCII screen
 
 /* This function will be called by the library to draw individual rasterized
  pixels to the screen. We should try to make this function as fast as possible
@@ -50,34 +49,8 @@ void drawPixel(S3L_PixelInfo *p)
   else
     c = '.';
 
-  screen[p->y * S3L_RESOLUTION_X + p->x] = c; // draw the pixel to the screen
-}
-
-void clearScreen()
-{
-  for (int j = 0; j < S3L_RESOLUTION_X * S3L_RESOLUTION_Y; ++j)
-    screen[j] = ' ';
-}
-
-// This function prints out the content of the screen to the terminal.
-
-void drawScreen()
-{
-  for (int i = 0; i < 20; ++i)
-    printf("\n");
-
-  int pos = 0;
-
-  for (int y = 0; y < S3L_RESOLUTION_Y; ++y)
-  {
-    for (int x = 0; x < S3L_RESOLUTION_X; ++x)
-    {
-      printf("%c",screen[pos]);
-      pos++;      
-    }
-
-    printf("\n");
-  }
+  // draw to ASCII screen
+  screen[FRAME_OFFSET + p->y * (S3L_RESOLUTION_X + 1) + p->x] = c;
 }
 
 int main()
@@ -89,9 +62,8 @@ int main()
     S3L_CUBE_TRIANGLE_COUNT,
     &cubeModel); 
 
-  S3L_initScene(  // Initialize the scene we'll be rendering.
-    &cubeModel,   /* We only have one model (the cube), this is like an array
-                     with only one model in it. */
+  S3L_initScene( // Initialize the scene we'll be rendering.
+    &cubeModel,  // This is like an array with only one model in it.
     1,
     &scene);
 
@@ -99,20 +71,25 @@ int main()
 
   scene.camera.transform.translation.z = -2 * S3L_FRACTIONS_PER_UNIT;
 
-  for (int i = 0; i < 200; ++i)   // render 200 frames
+  for (int i = 0; i < 200; ++i) // render 200 frames
   {
-    clearScreen();
+    // clear the screen
+    for (int j = 0; j < FRAME_OFFSET; ++j)
+      screen[j] = '\n';
+
+    for (int j = FRAME_OFFSET; j < SCREEN_SIZE; ++j)
+      screen[j] = ((j - FRAME_OFFSET + 1) % (S3L_RESOLUTION_X + 1) ? ' ' : '\n');
+
+    screen[SCREEN_SIZE - 1] = 0; // terminate the string
 
     S3L_newFrame();        // has to be called before each frame
-
     S3L_drawScene(scene);  /* This starts the scene rendering. The drawPixel
                               function will be called to draw it. */
-    drawScreen();
 
+    puts(screen);          // display the frame
     usleep(100000);        // wait a bit to let the user see the frame
 
     // now move and rotate the cube a little to see some movement:
-
     scene.models[0].transform.rotation.y += 10;
     scene.models[0].transform.rotation.x += 4;
     scene.models[0].transform.translation.x = S3L_sin(i * 4);