2024-03-03 07:36:14 +00:00
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#include "patches.h"
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#include "graphics.h"
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2024-03-14 04:44:47 +00:00
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#include "sys_cfb.h"
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2024-03-03 07:36:14 +00:00
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extern TransitionOverlay gTransitionOverlayTable[];
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extern Gfx sTransWipe3DL[];
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#define THIS ((TransitionWipe3*)thisx)
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// @recomp patched to scale the transition based on aspect ratio
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void TransitionWipe3_Draw(void* thisx, Gfx** gfxP) {
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Gfx* gfx = *gfxP;
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Mtx* modelView = &THIS->modelView[THIS->frame];
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f32 scale = 14.8f;
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Gfx* texScroll;
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// @recomp Modify the scale based on the aspect ratio to make sure the transition circle covers the whole screen
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float original_aspect_ratio = ((float)SCREEN_WIDTH) / ((float)SCREEN_HEIGHT);
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scale *= recomp_get_aspect_ratio(original_aspect_ratio) / original_aspect_ratio;
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THIS->frame ^= 1;
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gDPPipeSync(gfx++);
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texScroll = Gfx_BranchTexScroll(&gfx, THIS->scrollX, THIS->scrollY, 16, 64);
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gSPSegment(gfx++, 0x09, texScroll);
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gSPSegment(gfx++, 0x08, THIS->curTexture);
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gDPSetColor(gfx++, G_SETPRIMCOLOR, THIS->color.rgba);
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gDPSetColor(gfx++, G_SETENVCOLOR, THIS->color.rgba);
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gSPMatrix(gfx++, &THIS->projection, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_PROJECTION);
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gSPPerspNormalize(gfx++, THIS->normal);
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gSPMatrix(gfx++, &THIS->lookAt, G_MTX_NOPUSH | G_MTX_MUL | G_MTX_PROJECTION);
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if (scale != 1.0f) {
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guScale(modelView, scale, scale, 1.0f);
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gSPMatrix(gfx++, modelView, G_MTX_NOPUSH | G_MTX_LOAD | G_MTX_MODELVIEW);
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}
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// sTransWipe3DL is an overlay symbol, so its addresses need to be offset to get the actual loaded vram address.
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// TODO remove this once the recompiler is able to handle overlay symbols automatically for patch functions.
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ptrdiff_t reloc_offset;
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TransitionOverlay* overlay_entry = &gTransitionOverlayTable[FBDEMO_WIPE3];
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reloc_offset = (uintptr_t)Lib_PhysicalToVirtual(overlay_entry->loadInfo.addr) - (uintptr_t)overlay_entry->vramStart;
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gSPDisplayList(gfx++, (Gfx*)((u8*)sTransWipe3DL + reloc_offset));
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gDPPipeSync(gfx++);
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*gfxP = gfx;
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}
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#undef THIS
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typedef enum {
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/* 0 */ MOTION_BLUR_OFF,
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/* 1 */ MOTION_BLUR_SETUP,
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/* 2 */ MOTION_BLUR_PROCESS
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} MotionBlurStatus;
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extern u8 sMotionBlurStatus;
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extern s32 gFramerateDivisor;
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// @recomp Motion blur works fine normally, but when running at a higher framerate the effect is much less pronounced
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// as the previous frames decay quicker due to there being more frames drawn in the same period of time.
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void Play_DrawMotionBlur(PlayState* this) {
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GraphicsContext* gfxCtx = this->state.gfxCtx;
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s32 alpha;
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Gfx* gfx;
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Gfx* gfxHead;
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if (R_MOTION_BLUR_PRIORITY_ENABLED) {
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alpha = R_MOTION_BLUR_PRIORITY_ALPHA;
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if (sMotionBlurStatus == MOTION_BLUR_OFF) {
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sMotionBlurStatus = MOTION_BLUR_SETUP;
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}
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} else if (R_MOTION_BLUR_ENABLED) {
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alpha = R_MOTION_BLUR_ALPHA;
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if (sMotionBlurStatus == MOTION_BLUR_OFF) {
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sMotionBlurStatus = MOTION_BLUR_SETUP;
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}
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} else {
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alpha = 0;
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sMotionBlurStatus = MOTION_BLUR_OFF;
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}
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if (sMotionBlurStatus != MOTION_BLUR_OFF) {
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OPEN_DISPS(gfxCtx);
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gfxHead = POLY_OPA_DISP;
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gfx = Graph_GfxPlusOne(gfxHead);
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gSPDisplayList(OVERLAY_DISP++, gfx);
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this->pauseBgPreRender.fbuf = gfxCtx->curFrameBuffer;
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this->pauseBgPreRender.fbufSave = this->unk_18E64;
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// @recomp Scale alpha based on the target framerate so that the blur effect decays at an equivalent rate
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// to how it does in the original game's framerate.
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2024-03-28 02:18:31 +00:00
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s32 original_alpha = alpha;
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f32 exponent = 20.0f / recomp_get_target_framerate(gFramerateDivisor);
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f32 alpha_float = recomp_powf(alpha / 255.0f, exponent);
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// Clamp to an alpha of 0.9, which ensures that the output color converges to within a reasonable delta
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// of the target color when using an R8G8B8A8 framebuffer as RT64 currently does.
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// Not clamping leads to image retention at high framerates.
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alpha_float = MIN(alpha_float, 0.9f);
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alpha = (s32)(alpha_float * 255.0f);
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2024-03-03 07:36:14 +00:00
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if (sMotionBlurStatus == MOTION_BLUR_PROCESS) {
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func_80170AE0(&this->pauseBgPreRender, &gfx, alpha);
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} else {
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sMotionBlurStatus = MOTION_BLUR_PROCESS;
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}
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PreRender_SaveFramebuffer(&this->pauseBgPreRender, &gfx);
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gSPEndDisplayList(gfx++);
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Graph_BranchDlist(gfxHead, gfx);
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POLY_OPA_DISP = gfx;
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CLOSE_DISPS(gfxCtx);
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}
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}
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2024-03-14 04:44:47 +00:00
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// @recomp Patched to increase the scale based on the aspect ratio.
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void Actor_DrawLensOverlay(Gfx** gfxP, s32 lensMaskSize) {
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// @recomp Calculate the increase in aspect ratio.
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f32 original_aspect_ratio = (float)SCREEN_WIDTH / SCREEN_HEIGHT;
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f32 aspect_ratio_scale = recomp_get_aspect_ratio(original_aspect_ratio) / original_aspect_ratio;
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// @recomp Increase the circle's scale based on the aspect ratio scale. Also increase the base scaling
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// from 0.003f to 0.004f to account for overscan removal.
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TransitionCircle_LoadAndSetTexture(gfxP, gCircleTex, 4, 0, 6, 6,
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((LENS_MASK_ACTIVE_SIZE - lensMaskSize) * 0.004f * aspect_ratio_scale) + 1.0f);
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}
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// @recomp Patched to prevent the telescope and lens effects from getting stretched wide.
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void TransitionCircle_LoadAndSetTexture(Gfx** gfxp, TexturePtr texture, s32 fmt, s32 arg3, s32 masks, s32 maskt,
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f32 arg6) {
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Gfx* gfx = *gfxp;
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s32 xh = gCfbWidth;
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s32 yh = gCfbHeight;
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s32 width = 1 << masks;
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s32 height = 1 << maskt;
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f32 s;
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f32 t;
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s32 dtdy;
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s32 dsdx;
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gDPLoadTextureBlock_4b(gfx++, texture, fmt, width, height, 0, G_TX_MIRROR | G_TX_CLAMP, G_TX_MIRROR | G_TX_CLAMP,
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masks, maskt, G_TX_NOLOD, G_TX_NOLOD);
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gDPSetTileSize(gfx++, G_TX_RENDERTILE, ((SCREEN_WIDTH / 2) - width) << 2, ((SCREEN_HEIGHT / 2) - height) << 2,
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((SCREEN_WIDTH / 2) + (width - 1)) << 2, ((SCREEN_HEIGHT / 2) + (height - 1)) << 2);
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s = ((1.0f - (1.0f / arg6)) * (SCREEN_WIDTH / 2)) + 70.0f;
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t = ((1.0f - (1.0f / arg6)) * (SCREEN_HEIGHT / 2)) + 50.0f;
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if (s < -1023.0f) {
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s = -1023.0f;
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}
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if (t < -1023.0f) {
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t = -1023.0f;
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}
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if ((s <= -1023.0f) || (t <= -1023.0f)) {
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dsdx = 0;
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dtdy = 0;
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} else {
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dsdx = ((SCREEN_WIDTH - (2.0f * s)) / gScreenWidth) * (1 << 10);
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dtdy = ((SCREEN_HEIGHT - (2.0f * t)) / gScreenHeight) * (1 << 10);
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}
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// @recomp Calculate a new width for the rect to cover the entire widescreen contents.
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// Add a little extra to prevent RT64 misalignment adjustment from making the rect smaller than the screen.
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const u32 rt64_margin = 16;
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s32 full_width = (s32)(recomp_get_aspect_ratio((float)xh / yh) * yh + rt64_margin);
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// @recomp Adjust the S-coordinate to account for the extra screen size on the left edge.
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s32 extra_pixels = (full_width - SCREEN_WIDTH) / 2;
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f32 extra_texcoords = (float)extra_pixels * dsdx / (1 << 10);
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s -= (s32)extra_texcoords;
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// @recomp Patch the original rectangle to use the center as the origin to avoid getting stretched wide.
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gEXSetScissorAlign(gfx++, G_EX_ORIGIN_LEFT, G_EX_ORIGIN_RIGHT, 0, 0, -gCfbWidth, 0, 0, 0, gCfbWidth, gCfbHeight);
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gDPSetScissor(gfx++, G_SC_NON_INTERLACE, 0, 0, gCfbWidth, gCfbHeight);
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gEXTextureRectangle(gfx++, G_EX_ORIGIN_LEFT, G_EX_ORIGIN_LEFT,
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-rt64_margin / 2 * 4, 0,
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full_width * 4, yh * 4,
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G_TX_RENDERTILE, (s32)(s * (1 << 5)), (s32)(t * (1 << 5)), dsdx, dtdy);
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// @recomp Reset scissor.
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gEXSetScissorAlign(gfx++, G_EX_ORIGIN_NONE, G_EX_ORIGIN_NONE, 0, 0, 0, 0, 0, 0, gCfbWidth, gCfbHeight);
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gDPSetScissor(gfx++, G_SC_NON_INTERLACE, 0, 0, gCfbWidth, gCfbHeight);
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gDPPipeSync(gfx++);
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*gfxp = gfx;
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}
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