R_LoadTexture functions take a palette pointer now

[divverent/darkplaces.git] / palette.c

#include "quakedef.h"

unsigned int palette_complete[256];
unsigned int palette_nofullbrights[256];
unsigned int palette_onlyfullbrights[256];
unsigned int palette_nocolormapnofullbrights[256];
unsigned int palette_pantsaswhite[256];
unsigned int palette_shirtaswhite[256];
unsigned int palette_alpha[256];
unsigned int palette_font[256];

qbyte host_basepal[768];

cvar_t v_gamma = {CVAR_SAVE, "v_gamma", "1"};
cvar_t v_contrast = {CVAR_SAVE, "v_contrast", "1"};
cvar_t v_brightness = {CVAR_SAVE, "v_brightness", "0"};
cvar_t v_overbrightbits = {CVAR_SAVE, "v_overbrightbits", "0"};
cvar_t v_hwgamma = {0, "v_hwgamma", "1"};

void Palette_Setup8to24(void)
{
        int i;
        int fullbright_start, fullbright_end;
        int pants_start, pants_end;
        int shirt_start, shirt_end;
        int reversed_start, reversed_end;
        qbyte *in, *out;
        qbyte *colormap;

        in = host_basepal;
        out = (qbyte *) palette_complete; // palette is accessed as 32bit for speed reasons, but is created as 8bit bytes
        for (i = 0;i < 255;i++)
        {
                *out++ = *in++;
                *out++ = *in++;
                *out++ = *in++;
                *out++ = 255;
        }
        palette_complete[255] = 0; // completely transparent black

        // FIXME: fullbright_start should be read from colormap.lmp
        colormap = COM_LoadFile("gfx/colormap.lmp", true);
        if (colormap && com_filesize >= 16385)
                fullbright_start = 256 - colormap[16384];
        else
                fullbright_start = 256;
        if (colormap)
                Mem_Free(colormap);
        fullbright_end = 256;
        pants_start = 96;
        pants_end = 112;
        shirt_start = 16;
        shirt_end = 32;
        reversed_start = 128;
        reversed_end = 224;

        memset(palette_nofullbrights, 0, sizeof(palette_nofullbrights));
        for (i = 0;i < fullbright_start;i++)
                palette_nofullbrights[i] = palette_complete[i];

        memset(palette_onlyfullbrights, 0, sizeof(palette_onlyfullbrights));
        for (i = fullbright_start;i < fullbright_end;i++)
                palette_onlyfullbrights[i] = palette_complete[i];

        for (i = 0;i < 256;i++)
                palette_nocolormapnofullbrights[i] = palette_complete[i];
        for (i = pants_start;i < pants_end;i++)
                palette_nocolormapnofullbrights[i] = 0;
        for (i = shirt_start;i < shirt_end;i++)
                palette_nocolormapnofullbrights[i] = 0;
        for (i = fullbright_start;i < fullbright_end;i++)
                palette_nocolormapnofullbrights[i] = 0;

        memset(palette_pantsaswhite, 0, sizeof(palette_pantsaswhite));
        for (i = pants_start;i < pants_end;i++)
        {
                if (i >= reversed_start && i < reversed_end)
                        palette_pantsaswhite[i] = 15 - (i - pants_start);
                else
                        palette_pantsaswhite[i] = i - pants_start;
        }

        memset(palette_shirtaswhite, 0, sizeof(palette_shirtaswhite));
        for (i = shirt_start;i < shirt_end;i++)
        {
                if (i >= reversed_start && i < reversed_end)
                        palette_shirtaswhite[i] = 15 - (i - shirt_start);
                else
                        palette_shirtaswhite[i] = i - shirt_start;
        }

        memset(palette_alpha, 0, sizeof(palette_alpha));
        for (i = 0;i < 255;i++)
                palette_alpha[i] = 0xFFFFFFFF;

        memset(palette_font, 0, sizeof(palette_font));
        for (i = 1;i < 255;i++)
                palette_font[i] = palette_complete[i];
}


void BuildGammaTable8(float prescale, float gamma, float scale, float base, qbyte *out)
{
        int i, adjusted;
        double invgamma, d;

        gamma = bound(0.1, gamma, 5.0);
        if (gamma == 1) // LordHavoc: dodge the math
        {
                for (i = 0;i < 256;i++)
                {
                        adjusted = (int) (i * prescale * scale + base * 255.0);
                        out[i] = bound(0, adjusted, 255);
                }
        }
        else
        {
                invgamma = 1.0 / gamma;
                prescale /= 255.0f;
                for (i = 0;i < 256;i++)
                {
                        d = pow((double) i * prescale, invgamma) * scale + base;
                        adjusted = (int) (255.0 * d);
                        out[i] = bound(0, adjusted, 255);
                }
        }
}

void BuildGammaTable16(float prescale, float gamma, float scale, float base, unsigned short *out)
{
        int i, adjusted;
        double invgamma, d;

        gamma = bound(0.1, gamma, 5.0);
        if (gamma == 1) // LordHavoc: dodge the math
        {
                for (i = 0;i < 256;i++)
                {
                        adjusted = (int) (i * 256.0 * prescale * scale + base * 65535.0);
                        out[i] = bound(0, adjusted, 65535);
                }
        }
        else
        {
                invgamma = 1.0 / gamma;
                prescale /= 255.0f;
                for (i = 0;i < 256;i++)
                {
                        d = pow((double) i * prescale, invgamma) * scale + base;
                        adjusted = (int) (65535.0 * d);
                        out[i] = bound(0, adjusted, 65535);
                }
        }
}

qboolean hardwaregammasupported = false;
void VID_UpdateGamma(qboolean force)
{
        static float cachegamma = -1, cachebrightness = -1, cachecontrast = -1;
        static int cacheoverbrightbits = -1, cachehwgamma = -1;

        // LordHavoc: don't mess with gamma tables if running dedicated
        if (cls.state == ca_dedicated)
                return;

        if (!force
         && v_gamma.value == cachegamma
         && v_contrast.value == cachecontrast
         && v_brightness.value == cachebrightness
         && v_overbrightbits.integer == cacheoverbrightbits
         && v_hwgamma.value == cachehwgamma)
                return;

        if (v_gamma.value < 0.1)
                Cvar_SetValue("v_gamma", 0.1);
        if (v_gamma.value > 5.0)
                Cvar_SetValue("v_gamma", 5.0);

        if (v_contrast.value < 0.5)
                Cvar_SetValue("v_contrast", 0.5);
        if (v_contrast.value > 5.0)
                Cvar_SetValue("v_contrast", 5.0);

        if (v_brightness.value < 0)
                Cvar_SetValue("v_brightness", 0);
        if (v_brightness.value > 0.8)
                Cvar_SetValue("v_brightness", 0.8);

        cachegamma = v_gamma.value;
        cachecontrast = v_contrast.value;
        cachebrightness = v_brightness.value;
        cacheoverbrightbits = v_overbrightbits.integer;

        hardwaregammasupported = VID_SetGamma((float) (1 << cacheoverbrightbits), cachegamma, cachecontrast, cachebrightness);
        if (!hardwaregammasupported)
        {
                Con_Printf("Hardware gamma not supported.\n");
                Cvar_SetValue("v_hwgamma", 0);
        }
        cachehwgamma = v_hwgamma.integer;
}

void Gamma_Init(void)
{
        Cvar_RegisterVariable(&v_gamma);
        Cvar_RegisterVariable(&v_brightness);
        Cvar_RegisterVariable(&v_contrast);
        Cvar_RegisterVariable(&v_hwgamma);
        Cvar_RegisterVariable(&v_overbrightbits);
}

void Palette_Init(void)
{
        int i;
        float gamma, scale, base;
        qbyte *pal;
        qbyte temp[256];
        pal = (qbyte *)COM_LoadFile ("gfx/palette.lmp", false);
        if (!pal)
                Sys_Error ("Couldn't load gfx/palette.lmp");
        memcpy(host_basepal, pal, 765);
        Mem_Free(pal);
        host_basepal[765] = host_basepal[766] = host_basepal[767] = 0; // LordHavoc: force the transparent color to black

        gamma = 1;
        scale = 1;
        base = 0;
        i = COM_CheckParm("-texgamma");
        if (i)
                gamma = atof(com_argv[i + 1]);
        i = COM_CheckParm("-texcontrast");
        if (i)
                scale = atof(com_argv[i + 1]);
        i = COM_CheckParm("-texbrightness");
        if (i)
                base = atof(com_argv[i + 1]);
        gamma = bound(0.01, gamma, 10.0);
        scale = bound(0.01, scale, 10.0);
        base = bound(0, base, 0.95);

        BuildGammaTable8(1.0f, gamma, scale, base, temp);
        for (i = 3;i < 765;i++)
                host_basepal[i] = temp[host_basepal[i]];

        Palette_Setup8to24();
}