graphics/gpu/proctex/source/main.c

#include <3ds.h>
#include <citro3d.h>
#include <string.h>
#include <stdio.h>
#include "vshader_shbin.h"
 
#define CLEAR_COLOR 0x68B0D8FF
 
#define DISPLAY_TRANSFER_FLAGS \
    (GX_TRANSFER_FLIP_VERT(0) | GX_TRANSFER_OUT_TILED(0) | GX_TRANSFER_RAW_COPY(0) | \
    GX_TRANSFER_IN_FORMAT(GX_TRANSFER_FMT_RGBA8) | GX_TRANSFER_OUT_FORMAT(GX_TRANSFER_FMT_RGB8) | \
    GX_TRANSFER_SCALING(GX_TRANSFER_SCALE_NO))
 
static DVLB_s* vshader_dvlb;
static shaderProgram_s program;
static int uLoc_projection;
static C3D_Mtx projection;
 
static C3D_ProcTex pt;
static C3D_ProcTexLut pt_map;
static C3D_ProcTexLut pt_noise;
static C3D_ProcTexColorLut pt_clr;
 
static void sceneInit(void)
{
    // Load the vertex shader, create a shader program and bind it
    vshader_dvlb = DVLB_ParseFile((u32*)vshader_shbin, vshader_shbin_size);
    shaderProgramInit(&program);
    shaderProgramSetVsh(&program, &vshader_dvlb->DVLE[0]);
    C3D_BindProgram(&program);
 
    // Get the location of the uniforms
    uLoc_projection = shaderInstanceGetUniformLocation(program.vertexShader, "projection");
 
    // Configure attributes for use with the vertex shader
    // Attribute format and element count are ignored in immediate mode
    C3D_AttrInfo* attrInfo = C3D_GetAttrInfo();
    AttrInfo_Init(attrInfo);
    AttrInfo_AddLoader(attrInfo, 0, GPU_FLOAT, 3); // v0=position
    AttrInfo_AddLoader(attrInfo, 1, GPU_FLOAT, 3); // v1=texcoord0
 
    // Compute the projection matrix
    Mtx_OrthoTilt(&projection, 0.0, 400.0, 240.0, 0.0, 0.0, 1.0, true);
 
#define NUMCOLORS 2
    C3D_ProcTexInit(&pt, 0, NUMCOLORS);
    C3D_ProcTexClamp(&pt, GPU_PT_MIRRORED_REPEAT, GPU_PT_MIRRORED_REPEAT);
    C3D_ProcTexNoiseCoefs(&pt, C3D_ProcTex_UV, 0.1f, 0.3f, 0.1f);
    C3D_ProcTexCombiner(&pt, false, GPU_PT_SQRT2, GPU_PT_SQRT2); // <- for wood rings
    //C3D_ProcTexCombiner(&pt, false, GPU_PT_V, GPU_PT_V); // <- for wood stripes (or also _U)
    C3D_ProcTexFilter(&pt, GPU_PT_LINEAR);
    C3D_ProcTexBind(0, &pt);
 
    float data[129];
    int i;
    for (i = 0; i <= 128; i ++)
    {
        float x = i/128.0f;
        data[i] = fabsf(sinf(C3D_Angle(6*(x+0.125f)))); // 6*2 = 12 stripes
    }
    ProcTexLut_FromArray(&pt_map, data);
    C3D_ProcTexLutBind(GPU_LUT_RGBMAP, &pt_map);
 
    // Noise smooth step equation
    for (i = 0; i <= 128; i ++)
    {
        float x = i/128.0f;
        data[i] = x*x*(3-2*x);
    }
    ProcTexLut_FromArray(&pt_noise, data);
    C3D_ProcTexLutBind(GPU_LUT_NOISE, &pt_noise);
 
    u32 colors[NUMCOLORS];
    colors[0] = 0xFF1F1F4F; // dark brown
    colors[1] = 0xFF1F9ED1; // light brown
 
    ProcTexColorLut_Write(&pt_clr, colors, 0, NUMCOLORS);
    C3D_ProcTexColorLutBind(&pt_clr);
 
    // Configure the first fragment shading substage to just pass through the procedural texture color
    // See https://www.opengl.org/sdk/docs/man2/xhtml/glTexEnv.xml for more insight
    C3D_TexEnv* env = C3D_GetTexEnv(0);
    C3D_TexEnvInit(env);
    C3D_TexEnvSrc(env, C3D_Both, GPU_TEXTURE3, 0, 0);
    C3D_TexEnvFunc(env, C3D_Both, GPU_REPLACE);
}
 
static void sceneRender(void)
{
    // Update the uniforms
    C3D_FVUnifMtx4x4(GPU_VERTEX_SHADER, uLoc_projection, &projection);
 
    // Draw the triangle directly
    //float min = -1.0f;  //<-- for (symmetrical) wood rings
    //float max = +1.0f;
    float min = 1.0f; //<-- for asymmetrical wood rings
    float max = 3.0f;
    //float min =  0.0f; //<-- for wood stripes
    //float max = +3.0f; // triplicate stripes
    float size = 200.0f/2;
    C3D_ImmDrawBegin(GPU_TRIANGLE_STRIP);
        C3D_ImmSendAttrib(200.0f-size, 120.0f+size, 0.5f, 0.0f); // v0=position
        C3D_ImmSendAttrib(min, min, 0.0f, 0.0f);                   // v1=texcoord0
 
        C3D_ImmSendAttrib(200.0f+size, 120.0f+size, 0.5f, 0.0f);
        C3D_ImmSendAttrib(max, min, 0.0f, 0.0f);
 
        C3D_ImmSendAttrib(200.0f-size, 120.0f-size, 0.5f, 0.0f);
        C3D_ImmSendAttrib(min, max, 0.0f, 0.0f);
 
        C3D_ImmSendAttrib(200.0f+size, 120.0f-size, 0.5f, 0.0f);
        C3D_ImmSendAttrib(max, max, 0.0f, 0.0f);
    C3D_ImmDrawEnd();
}
 
static void sceneExit(void)
{
    // Free the shader program
    shaderProgramFree(&program);
    DVLB_Free(vshader_dvlb);
}
 
int main()
{
    // Initialize graphics
    gfxInitDefault();
    consoleInit(GFX_BOTTOM, NULL);
    C3D_Init(C3D_DEFAULT_CMDBUF_SIZE);
 
    // Initialize the render target
    C3D_RenderTarget* target = C3D_RenderTargetCreate(240, 400, GPU_RB_RGBA8, GPU_RB_DEPTH24_STENCIL8);
    C3D_RenderTargetSetOutput(target, GFX_TOP, GFX_LEFT, DISPLAY_TRANSFER_FLAGS);
 
    // Initialize the scene
    sceneInit();
 
    // Main loop
    while (aptMainLoop())
    {
        hidScanInput();
 
        // Respond to user input
        u32 kDown = hidKeysDown();
        if (kDown & KEY_START)
            break; // break in order to return to hbmenu
 
        printf("\x1b[29;1Hgpu: %5.2f%%  cpu: %5.2f%%  buf:%5.2f%%\n", C3D_GetDrawingTime()*3, C3D_GetProcessingTime()*3, C3D_GetCmdBufUsage()*100);
 
        // Render the scene
        C3D_FrameBegin(C3D_FRAME_SYNCDRAW);
            C3D_RenderTargetClear(target, C3D_CLEAR_ALL, CLEAR_COLOR, 0);
            C3D_FrameDrawOn(target);
            sceneRender();
        C3D_FrameEnd(0);
    }
 
    // Deinitialize the scene
    sceneExit();
 
    // Deinitialize graphics
    C3D_Fini();
    gfxExit();
    return 0;
}