// license:BSD-3-Clause // copyright-holders:Alex Pasadyn,Zsolt Vasvari,Aaron Giles /*************************************************************************** TMS34010: Portable Texas Instruments TMS34010 emulator Copyright Alex Pasadyn/Zsolt Vasvari Parts based on code by Aaron Giles ***************************************************************************/ #ifndef RECURSIVE_INCLUDE #define LOG_GFX_OPS 0 #define LOGGFX(x) do { if (LOG_GFX_OPS && machine().input().code_pressed(KEYCODE_L)) logerror x; } while (0) /* Graphics Instructions */ void tms340x0_device::line(UINT16 op) { if (!P_FLAG()) { if (WINDOW_CHECKING() != 0 && WINDOW_CHECKING() != 3) logerror("LINE XY %08X - Window Checking Mode %d not supported\n", m_pc, WINDOW_CHECKING()); m_st |= STBIT_P; TEMP() = (op & 0x80) ? 1 : 0; /* boundary value depends on the algorithm */ LOGGFX(("%08X(%3d):LINE (%d,%d)-(%d,%d)\n", m_pc, m_screen->vpos(), DADDR_X(), DADDR_Y(), DADDR_X() + DYDX_X(), DADDR_Y() + DYDX_Y())); } if (COUNT() > 0) { INT16 x1,y1; COUNT()--; if (WINDOW_CHECKING() != 3 || (DADDR_X() >= WSTART_X() && DADDR_X() <= WEND_X() && DADDR_Y() >= WSTART_Y() && DADDR_Y() <= WEND_Y())) WPIXEL(DXYTOL(DADDR_XY()),COLOR1()); if (SADDR() >= TEMP()) { SADDR() += DYDX_Y()*2 - DYDX_X()*2; x1 = INC1_X(); y1 = INC1_Y(); } else { SADDR() += DYDX_Y()*2; x1 = INC2_X(); y1 = INC2_Y(); } DADDR_X() += x1; DADDR_Y() += y1; COUNT_UNKNOWN_CYCLES(2); m_pc -= 0x10; /* not done yet, check for interrupts and restart instruction */ return; } m_st &= ~STBIT_P; } /* cases: * window modes (0,1,2,3) * boolean/arithmetic ops (16+6) * transparency (on/off) * plane masking * directions (left->right/right->left, top->bottom/bottom->top) */ int tms340x0_device::apply_window(const char *inst_name,int srcbpp, UINT32 *srcaddr, XY *dst, int *dx, int *dy) { /* apply the window */ if (WINDOW_CHECKING() == 0) return 0; else { int sx = dst->x; int sy = dst->y; int ex = sx + *dx - 1; int ey = sy + *dy - 1; int diff, cycles = 3; if (WINDOW_CHECKING() == 2) logerror("%08x: %s apply_window window mode %d not supported!\n", pc(), inst_name, WINDOW_CHECKING()); CLR_V(); if (WINDOW_CHECKING() == 1) SET_V_LOG(1); /* clip X */ diff = WSTART_X() - sx; if (diff > 0) { if (srcaddr) *srcaddr += diff * srcbpp; sx += diff; SET_V_LOG(1); } diff = ex - WEND_X(); if (diff > 0) { ex -= diff; SET_V_LOG(1); } /* clip Y */ diff = WSTART_Y() - sy; if (diff > 0) { if (srcaddr) *srcaddr += diff * m_convsp; sy += diff; SET_V_LOG(1); } diff = ey - WEND_Y(); if (diff > 0) { ey -= diff; SET_V_LOG(1); } /* compute cycles */ if (*dx != ex - sx + 1 || *dy != ey - sy + 1) { if (dst->x != sx || dst->y != sy) cycles += 11; else cycles += 3; } else if (dst->x != sx || dst->y != sy) cycles += 7; /* update the values */ dst->x = sx; dst->y = sy; *dx = ex - sx + 1; *dy = ey - sy + 1; return cycles; } } /******************************************************************* About the timing of gfx operations: The 34010 manual lists a fairly intricate and accurate way of computing cycle timings for graphics ops. However, there are enough typos and misleading statements to make the reliability of the timing info questionable. So, to address this, here is a simplified approximate version of the timing. timing = setup + (srcwords * 2 + dstwords * gfxop) * rows Each read access takes 2 cycles. Each gfx operation has its own timing as specified in the 34010 manual. So, it's 2 cycles per read plus gfxop cycles per operation. Pretty simple, no? *******************************************************************/ int tms340x0_device::compute_fill_cycles(int left_partials, int right_partials, int full_words, int op_timing) { int dstwords; if (left_partials) full_words += 1; if (right_partials) full_words += 1; dstwords = full_words; return (dstwords * op_timing); } int tms340x0_device::compute_pixblt_cycles(int left_partials, int right_partials, int full_words, int op_timing) { int srcwords, dstwords; if (left_partials) full_words += 1; if (right_partials) full_words += 1; srcwords = full_words; dstwords = full_words; return (dstwords * op_timing + srcwords * 2) + 2; } int tms340x0_device::compute_pixblt_b_cycles(int left_partials, int right_partials, int full_words, int rows, int op_timing, int bpp) { int srcwords, dstwords; if (left_partials) full_words += 1; if (right_partials) full_words += 1; srcwords = full_words * bpp / 16; dstwords = full_words; return (dstwords * op_timing + srcwords * 2) * rows + 2; } /* Shift register handling */ void tms340x0_device::memory_w(address_space &space, offs_t offset,UINT16 data) { space.write_word(offset, data); } UINT16 tms340x0_device::memory_r(address_space &space, offs_t offset) { return space.read_word(offset); } void tms340x0_device::shiftreg_w(address_space &space, offs_t offset,UINT16 data) { if (!m_from_shiftreg_cb.isnull()) m_from_shiftreg_cb(space, (UINT32)(offset << 3) & ~15, &m_shiftreg[0]); else logerror("From ShiftReg function not set. PC = %08X\n", m_pc); } UINT16 tms340x0_device::shiftreg_r(address_space &space, offs_t offset) { if (!m_to_shiftreg_cb.isnull()) m_to_shiftreg_cb(space, (UINT32)(offset << 3) & ~15, &m_shiftreg[0]); else logerror("To ShiftReg function not set. PC = %08X\n", m_pc); return m_shiftreg[0]; } UINT16 tms340x0_device::dummy_shiftreg_r(address_space &space, offs_t offset) { return m_shiftreg[0]; } /* Pixel operations */ UINT32 tms340x0_device::pixel_op00(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return srcpix; } UINT32 tms340x0_device::pixel_op01(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return srcpix & dstpix; } UINT32 tms340x0_device::pixel_op02(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return srcpix & ~dstpix; } UINT32 tms340x0_device::pixel_op03(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return 0; } UINT32 tms340x0_device::pixel_op04(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (srcpix | ~dstpix) & mask; } UINT32 tms340x0_device::pixel_op05(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return ~(srcpix ^ dstpix) & mask; } UINT32 tms340x0_device::pixel_op06(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return ~dstpix & mask; } UINT32 tms340x0_device::pixel_op07(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return ~(srcpix | dstpix) & mask; } UINT32 tms340x0_device::pixel_op08(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (srcpix | dstpix) & mask; } UINT32 tms340x0_device::pixel_op09(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return dstpix & mask; } UINT32 tms340x0_device::pixel_op10(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (srcpix ^ dstpix) & mask; } UINT32 tms340x0_device::pixel_op11(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (~srcpix & dstpix) & mask; } UINT32 tms340x0_device::pixel_op12(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return mask; } UINT32 tms340x0_device::pixel_op13(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (~srcpix & dstpix) & mask; } UINT32 tms340x0_device::pixel_op14(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return ~(srcpix & dstpix) & mask; } UINT32 tms340x0_device::pixel_op15(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return srcpix ^ mask; } UINT32 tms340x0_device::pixel_op16(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (srcpix + dstpix) & mask; } UINT32 tms340x0_device::pixel_op17(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { INT32 tmp = srcpix + (dstpix & mask); return (tmp > mask) ? mask : tmp; } UINT32 tms340x0_device::pixel_op18(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { return (dstpix - srcpix) & mask; } UINT32 tms340x0_device::pixel_op19(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { INT32 tmp = srcpix - (dstpix & mask); return (tmp < 0) ? 0 : tmp; } UINT32 tms340x0_device::pixel_op20(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { dstpix &= mask; return (srcpix > dstpix) ? srcpix : dstpix; } UINT32 tms340x0_device::pixel_op21(UINT32 dstpix, UINT32 mask, UINT32 srcpix) { dstpix &= mask; return (srcpix < dstpix) ? srcpix : dstpix; } const tms340x0_device::pixel_op_func tms340x0_device::s_pixel_op_table[32] = { &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op01, &tms340x0_device::pixel_op02, &tms340x0_device::pixel_op03, &tms340x0_device::pixel_op04, &tms340x0_device::pixel_op05, &tms340x0_device::pixel_op06, &tms340x0_device::pixel_op07, &tms340x0_device::pixel_op08, &tms340x0_device::pixel_op09, &tms340x0_device::pixel_op10, &tms340x0_device::pixel_op11, &tms340x0_device::pixel_op12, &tms340x0_device::pixel_op13, &tms340x0_device::pixel_op14, &tms340x0_device::pixel_op15, &tms340x0_device::pixel_op16, &tms340x0_device::pixel_op17, &tms340x0_device::pixel_op18, &tms340x0_device::pixel_op19, &tms340x0_device::pixel_op20, &tms340x0_device::pixel_op21, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00, &tms340x0_device::pixel_op00 }; const UINT8 tms340x0_device::s_pixel_op_timing_table[33] = { 2,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,5,5,6,5,5,2,2,2,2,2,2,2,2,2,2,2 }; /* tables */ const tms340x0_device::pixblt_op_func tms340x0_device::s_pixblt_op_table[] = { &tms340x0_device::pixblt_1_op0, &tms340x0_device::pixblt_1_op0_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_1_opx, &tms340x0_device::pixblt_1_opx_trans, &tms340x0_device::pixblt_2_op0, &tms340x0_device::pixblt_2_op0_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_2_opx, &tms340x0_device::pixblt_2_opx_trans, &tms340x0_device::pixblt_4_op0, &tms340x0_device::pixblt_4_op0_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_4_opx, &tms340x0_device::pixblt_4_opx_trans, &tms340x0_device::pixblt_8_op0, &tms340x0_device::pixblt_8_op0_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_8_opx, &tms340x0_device::pixblt_8_opx_trans, &tms340x0_device::pixblt_16_op0, &tms340x0_device::pixblt_16_op0_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans, &tms340x0_device::pixblt_16_opx, &tms340x0_device::pixblt_16_opx_trans }; const tms340x0_device::pixblt_op_func tms340x0_device::s_pixblt_r_op_table[] = { &tms340x0_device::pixblt_r_1_op0, &tms340x0_device::pixblt_r_1_op0_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_1_opx, &tms340x0_device::pixblt_r_1_opx_trans, &tms340x0_device::pixblt_r_2_op0, &tms340x0_device::pixblt_r_2_op0_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_2_opx, &tms340x0_device::pixblt_r_2_opx_trans, &tms340x0_device::pixblt_r_4_op0, &tms340x0_device::pixblt_r_4_op0_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_4_opx, &tms340x0_device::pixblt_r_4_opx_trans, &tms340x0_device::pixblt_r_8_op0, &tms340x0_device::pixblt_r_8_op0_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_8_opx, &tms340x0_device::pixblt_r_8_opx_trans, &tms340x0_device::pixblt_r_16_op0,&tms340x0_device::pixblt_r_16_op0_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans, &tms340x0_device::pixblt_r_16_opx,&tms340x0_device::pixblt_r_16_opx_trans }; const tms340x0_device::pixblt_b_op_func tms340x0_device::s_pixblt_b_op_table[] = { &tms340x0_device::pixblt_b_1_op0, &tms340x0_device::pixblt_b_1_op0_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_1_opx, &tms340x0_device::pixblt_b_1_opx_trans, &tms340x0_device::pixblt_b_2_op0, &tms340x0_device::pixblt_b_2_op0_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_2_opx, &tms340x0_device::pixblt_b_2_opx_trans, &tms340x0_device::pixblt_b_4_op0, &tms340x0_device::pixblt_b_4_op0_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_4_opx, &tms340x0_device::pixblt_b_4_opx_trans, &tms340x0_device::pixblt_b_8_op0, &tms340x0_device::pixblt_b_8_op0_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_8_opx, &tms340x0_device::pixblt_b_8_opx_trans, &tms340x0_device::pixblt_b_16_op0,&tms340x0_device::pixblt_b_16_op0_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans, &tms340x0_device::pixblt_b_16_opx,&tms340x0_device::pixblt_b_16_opx_trans }; const tms340x0_device::pixblt_b_op_func tms340x0_device::s_fill_op_table[] = { &tms340x0_device::fill_1_op0, &tms340x0_device::fill_1_op0_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_1_opx, &tms340x0_device::fill_1_opx_trans, &tms340x0_device::fill_2_op0, &tms340x0_device::fill_2_op0_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_2_opx, &tms340x0_device::fill_2_opx_trans, &tms340x0_device::fill_4_op0, &tms340x0_device::fill_4_op0_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_4_opx, &tms340x0_device::fill_4_opx_trans, &tms340x0_device::fill_8_op0, &tms340x0_device::fill_8_op0_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_8_opx, &tms340x0_device::fill_8_opx_trans, &tms340x0_device::fill_16_op0, &tms340x0_device::fill_16_op0_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans, &tms340x0_device::fill_16_opx, &tms340x0_device::fill_16_opx_trans }; #define RECURSIVE_INCLUDE /* non-transparent replace ops */ #define PIXEL_OP(src, mask, pixel) pixel = pixel #define PIXEL_OP_TIMING 2 #define PIXEL_OP_REQUIRES_SOURCE 0 #define TRANSPARENCY 0 /* 1bpp cases */ #define BITS_PER_PIXEL 1 #define FUNCTION_NAME(base) base##_1_op0 #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 2bpp cases */ #define BITS_PER_PIXEL 2 #define FUNCTION_NAME(base) base##_2_op0 #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 4bpp cases */ #define BITS_PER_PIXEL 4 #define FUNCTION_NAME(base) base##_4_op0 #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 8bpp cases */ #define BITS_PER_PIXEL 8 #define FUNCTION_NAME(base) base##_8_op0 #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 16bpp cases */ #define BITS_PER_PIXEL 16 #define FUNCTION_NAME(base) base##_16_op0 #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL #undef TRANSPARENCY #undef PIXEL_OP_REQUIRES_SOURCE #undef PIXEL_OP_TIMING #undef PIXEL_OP #define PIXEL_OP(src, mask, pixel) pixel = (this->*m_pixel_op)(src, mask, pixel) #define PIXEL_OP_TIMING m_pixel_op_timing #define PIXEL_OP_REQUIRES_SOURCE 1 #define TRANSPARENCY 0 /* 1bpp cases */ #define BITS_PER_PIXEL 1 #define FUNCTION_NAME(base) base##_1_opx #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 2bpp cases */ #define BITS_PER_PIXEL 2 #define FUNCTION_NAME(base) base##_2_opx #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 4bpp cases */ #define BITS_PER_PIXEL 4 #define FUNCTION_NAME(base) base##_4_opx #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 8bpp cases */ #define BITS_PER_PIXEL 8 #define FUNCTION_NAME(base) base##_8_opx #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 16bpp cases */ #define BITS_PER_PIXEL 16 #define FUNCTION_NAME(base) base##_16_opx #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL #undef TRANSPARENCY #undef PIXEL_OP_REQUIRES_SOURCE #undef PIXEL_OP_TIMING #undef PIXEL_OP /* transparent replace ops */ #define PIXEL_OP(src, mask, pixel) pixel = pixel #define PIXEL_OP_REQUIRES_SOURCE 0 #define PIXEL_OP_TIMING 4 #define TRANSPARENCY 1 /* 1bpp cases */ #define BITS_PER_PIXEL 1 #define FUNCTION_NAME(base) base##_1_op0_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 2bpp cases */ #define BITS_PER_PIXEL 2 #define FUNCTION_NAME(base) base##_2_op0_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 4bpp cases */ #define BITS_PER_PIXEL 4 #define FUNCTION_NAME(base) base##_4_op0_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 8bpp cases */ #define BITS_PER_PIXEL 8 #define FUNCTION_NAME(base) base##_8_op0_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 16bpp cases */ #define BITS_PER_PIXEL 16 #define FUNCTION_NAME(base) base##_16_op0_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL #undef TRANSPARENCY #undef PIXEL_OP_REQUIRES_SOURCE #undef PIXEL_OP_TIMING #undef PIXEL_OP #define PIXEL_OP(src, mask, pixel) pixel = (this->*m_pixel_op)(src, mask, pixel) #define PIXEL_OP_REQUIRES_SOURCE 1 #define PIXEL_OP_TIMING (2+m_pixel_op_timing) #define TRANSPARENCY 1 /* 1bpp cases */ #define BITS_PER_PIXEL 1 #define FUNCTION_NAME(base) base##_1_opx_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 2bpp cases */ #define BITS_PER_PIXEL 2 #define FUNCTION_NAME(base) base##_2_opx_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 4bpp cases */ #define BITS_PER_PIXEL 4 #define FUNCTION_NAME(base) base##_4_opx_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 8bpp cases */ #define BITS_PER_PIXEL 8 #define FUNCTION_NAME(base) base##_8_opx_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL /* 16bpp cases */ #define BITS_PER_PIXEL 16 #define FUNCTION_NAME(base) base##_16_opx_trans #include "34010gfx.c" #undef FUNCTION_NAME #undef BITS_PER_PIXEL #undef TRANSPARENCY #undef PIXEL_OP_REQUIRES_SOURCE #undef PIXEL_OP_TIMING #undef PIXEL_OP static const UINT8 pixelsize_lookup[32] = { 0,0,1,1,2,2,2,2,3,3,3,3,3,3,3,3,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4,4 }; void tms340x0_device::pixblt_b_l(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT B,L (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; (this->*s_pixblt_b_op_table[ix])(1); } void tms340x0_device::pixblt_b_xy(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT B,XY (%d,%d) (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DADDR_X(), DADDR_Y(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; (this->*s_pixblt_b_op_table[ix])(0); } void tms340x0_device::pixblt_l_l(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int pbh = (IOREG(REG_CONTROL) >> 8) & 1; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT L,L (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; if (!pbh) (this->*s_pixblt_op_table[ix])(1, 1); else (this->*s_pixblt_r_op_table[ix])(1, 1); } void tms340x0_device::pixblt_l_xy(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int pbh = (IOREG(REG_CONTROL) >> 8) & 1; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT L,XY (%d,%d) (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DADDR_X(), DADDR_Y(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; if (!pbh) (this->*s_pixblt_op_table[ix])(1, 0); else (this->*s_pixblt_r_op_table[ix])(1, 0); } void tms340x0_device::pixblt_xy_l(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int pbh = (IOREG(REG_CONTROL) >> 8) & 1; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT XY,L (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; if (!pbh) (this->*s_pixblt_op_table[ix])(0, 1); else (this->*s_pixblt_r_op_table[ix])(0, 1); } void tms340x0_device::pixblt_xy_xy(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int pbh = (IOREG(REG_CONTROL) >> 8) & 1; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):PIXBLT XY,XY (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; if (!pbh) (this->*s_pixblt_op_table[ix])(0, 0); else (this->*s_pixblt_r_op_table[ix])(0, 0); } void tms340x0_device::fill_l(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):FILL L (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; (this->*s_fill_op_table[ix])(1); } void tms340x0_device::fill_xy(UINT16 op) { int psize = pixelsize_lookup[IOREG(REG_PSIZE) & 0x1f]; int trans = (IOREG(REG_CONTROL) & 0x20) >> 5; int rop = (IOREG(REG_CONTROL) >> 10) & 0x1f; int ix = trans | (rop << 1) | (psize << 6); if (!P_FLAG()) LOGGFX(("%08X(%3d):FILL XY (%d,%d) (%dx%d) depth=%d\n", m_pc, m_screen->vpos(), DADDR_X(), DADDR_Y(), DYDX_X(), DYDX_Y(), IOREG(REG_PSIZE) ? IOREG(REG_PSIZE) : 32)); m_pixel_op = s_pixel_op_table[rop]; m_pixel_op_timing = s_pixel_op_timing_table[rop]; (this->*s_fill_op_table[ix])(0); } #else #undef PIXELS_PER_WORD #undef PIXEL_MASK #define PIXELS_PER_WORD (16 / BITS_PER_PIXEL) #define PIXEL_MASK ((1 << BITS_PER_PIXEL) - 1) void FUNCTION_NAME(tms340x0_device::pixblt)(int src_is_linear, int dst_is_linear) { /* if this is the first time through, perform the operation */ if (!P_FLAG()) { int dx, dy, x, y, /*words,*/ yreverse; word_write_func word_write; word_read_func word_read; UINT32 readwrites = 0; UINT32 saddr, daddr; XY dstxy = { 0 }; /* determine read/write functions */ if (IOREG(REG_DPYCTL) & 0x0800) { word_write = &tms340x0_device::shiftreg_w; word_read = &tms340x0_device::shiftreg_r; } else { word_write = &tms340x0_device::memory_w; word_read = &tms340x0_device::memory_r; } /* compute the starting addresses */ saddr = src_is_linear ? SADDR() : SXYTOL(SADDR_XY()); /* compute the bounds of the operation */ dx = (INT16)DYDX_X(); dy = (INT16)DYDX_Y(); /* apply the window for non-linear destinations */ m_gfxcycles = 7 + (src_is_linear ? 0 : 2); if (!dst_is_linear) { dstxy = DADDR_XY(); m_gfxcycles += 2 + (!src_is_linear) + apply_window("PIXBLT", BITS_PER_PIXEL, &saddr, &dstxy, &dx, &dy); daddr = DXYTOL(dstxy); } else daddr = DADDR(); daddr &= ~(BITS_PER_PIXEL - 1); LOGGFX((" saddr=%08X daddr=%08X sptch=%08X dptch=%08X\n", saddr, daddr, SPTCH(), DPTCH())); /* bail if we're clipped */ if (dx <= 0 || dy <= 0) return; /* window mode 1: just return and interrupt if we are within the window */ if (WINDOW_CHECKING() == 1 && !dst_is_linear) { CLR_V(); DADDR_XY() = dstxy; DYDX_X() = dx; DYDX_Y() = dy; IOREG(REG_INTPEND) |= TMS34010_WV; check_interrupt(); return; } /* handle flipping the addresses */ yreverse = (IOREG(REG_CONTROL) >> 9) & 1; if (!src_is_linear || !dst_is_linear) { if (yreverse) { saddr += (dy - 1) * m_convsp; daddr += (dy - 1) * m_convdp; } } m_st |= STBIT_P; /* loop over rows */ for (y = 0; y < dy; y++) { UINT32 srcwordaddr = saddr >> 4; UINT32 dstwordaddr = daddr >> 4; UINT8 srcbit = saddr & 15; UINT8 dstbit = daddr & 15; UINT32 srcword, dstword = 0; /* fetch the initial source word */ srcword = (this->*word_read)(*m_program, srcwordaddr++ << 1); readwrites++; /* fetch the initial dest word */ if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY || (daddr & 0x0f) != 0) { dstword = (this->*word_read)(*m_program, dstwordaddr << 1); readwrites++; } /* loop over pixels */ for (x = 0; x < dx; x++) { UINT32 dstmask; UINT32 pixel; /* fetch more words if necessary */ if (srcbit + BITS_PER_PIXEL > 16) { srcword |= (this->*word_read)(*m_program, srcwordaddr++ << 1) << 16; readwrites++; } /* extract pixel from source */ pixel = (srcword >> srcbit) & PIXEL_MASK; srcbit += BITS_PER_PIXEL; if (srcbit > 16) { srcbit -= 16; srcword >>= 16; } /* fetch additional destination word if necessary */ if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY) if (dstbit + BITS_PER_PIXEL > 16) { dstword |= (this->*word_read)(*m_program, (dstwordaddr + 1) << 1) << 16; readwrites++; } /* apply pixel operations */ pixel <<= dstbit; dstmask = PIXEL_MASK << dstbit; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* flush destination words */ dstbit += BITS_PER_PIXEL; if (dstbit > 16) { (this->*word_write)(*m_program, dstwordaddr++ << 1, dstword); readwrites++; dstbit -= 16; dstword >>= 16; } } /* flush any remaining words */ if (dstbit > 0) { /* if we're right-partial, read and mask the remaining bits */ if (dstbit != 16) { UINT16 origdst = (this->*word_read)(*m_program, dstwordaddr << 1); UINT16 mask = 0xffff << dstbit; dstword = (dstword & ~mask) | (origdst & mask); readwrites++; } (this->*word_write)(*m_program, dstwordaddr++ << 1, dstword); readwrites++; } #if 0 int left_partials, right_partials, full_words, bitshift, bitshift_alt; UINT16 srcword, srcmask, dstword, dstmask, pixel; UINT32 swordaddr, dwordaddr; /* determine the bit shift to get from source to dest */ bitshift = ((daddr & 15) - (saddr & 15)) & 15; bitshift_alt = (16 - bitshift) & 15; /* how many left and right partial pixels do we have? */ left_partials = (PIXELS_PER_WORD - ((daddr & 15) / BITS_PER_PIXEL)) & (PIXELS_PER_WORD - 1); right_partials = ((daddr + dx * BITS_PER_PIXEL) & 15) / BITS_PER_PIXEL; full_words = dx - left_partials - right_partials; if (full_words < 0) left_partials = dx, right_partials = full_words = 0; else full_words /= PIXELS_PER_WORD; /* compute cycles */ m_gfxcycles += compute_pixblt_cycles(left_partials, right_partials, full_words, PIXEL_OP_TIMING); /* use word addresses each row */ swordaddr = saddr >> 4; dwordaddr = daddr >> 4; /* fetch the initial source word */ srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = PIXEL_MASK << (saddr & 15); /* handle the left partial word */ if (left_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK << (daddr & 15); /* loop over partials */ for (x = 0; x < left_partials; x++) { /* fetch another word if necessary */ if (srcmask == 0) { srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = PIXEL_MASK; } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= BITS_PER_PIXEL; /* update the destination */ dstmask <<= BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* loop over full words */ for (words = 0; words < full_words; words++) { /* fetch the destination word (if necessary) */ if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY) dstword = (this->*word_read)(*m_program, dwordaddr << 1); else dstword = 0; dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < PIXELS_PER_WORD; x++) { /* fetch another word if necessary */ if (srcmask == 0) { srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = PIXEL_MASK; } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= BITS_PER_PIXEL; /* update the destination */ dstmask <<= BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* handle the right partial word */ if (right_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < right_partials; x++) { /* fetch another word if necessary */ if (srcmask == 0) { LOGGFX((" right fetch @ %08x\n", swordaddr)); srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = PIXEL_MASK; } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= BITS_PER_PIXEL; /* update the destination */ dstmask <<= BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } #endif /* update for next row */ if (!yreverse) { saddr += SPTCH(); daddr += DPTCH(); } else { saddr -= SPTCH(); daddr -= DPTCH(); } } m_gfxcycles += readwrites * 2 + dx * dy * (PIXEL_OP_TIMING - 2); LOGGFX((" (%d cycles)\n", m_gfxcycles)); } /* eat cycles */ if (m_gfxcycles > m_icount) { m_gfxcycles -= m_icount; m_icount = 0; m_pc -= 0x10; } else { m_icount -= m_gfxcycles; m_st &= ~STBIT_P; if (src_is_linear && dst_is_linear) SADDR() += DYDX_Y() * SPTCH(); else if (src_is_linear) SADDR() += DYDX_Y() * SPTCH(); else SADDR_Y() += DYDX_Y(); if (dst_is_linear) DADDR() += DYDX_Y() * DPTCH(); else DADDR_Y() += DYDX_Y(); } } void FUNCTION_NAME(tms340x0_device::pixblt_r)(int src_is_linear, int dst_is_linear) { /* if this is the first time through, perform the operation */ if (!P_FLAG()) { int dx, dy, x, y, words, yreverse; word_write_func word_write; word_read_func word_read; UINT32 saddr, daddr; XY dstxy = { 0 }; /* determine read/write functions */ if (IOREG(REG_DPYCTL) & 0x0800) { word_write = &tms340x0_device::shiftreg_w; word_read = &tms340x0_device::shiftreg_r; } else { word_write = &tms340x0_device::memory_w; word_read = &tms340x0_device::memory_r; } /* compute the starting addresses */ saddr = src_is_linear ? SADDR() : SXYTOL(SADDR_XY()); if ((saddr & (BITS_PER_PIXEL - 1)) != 0) osd_printf_debug("PIXBLT_R%d with odd saddr\n", BITS_PER_PIXEL); saddr &= ~(BITS_PER_PIXEL - 1); /* compute the bounds of the operation */ dx = (INT16)DYDX_X(); dy = (INT16)DYDX_Y(); /* apply the window for non-linear destinations */ m_gfxcycles = 7 + (src_is_linear ? 0 : 2); if (!dst_is_linear) { dstxy = DADDR_XY(); m_gfxcycles += 2 + (!src_is_linear) + apply_window("PIXBLT R", BITS_PER_PIXEL, &saddr, &dstxy, &dx, &dy); daddr = DXYTOL(dstxy); } else daddr = DADDR(); if ((daddr & (BITS_PER_PIXEL - 1)) != 0) osd_printf_debug("PIXBLT_R%d with odd daddr\n", BITS_PER_PIXEL); daddr &= ~(BITS_PER_PIXEL - 1); LOGGFX((" saddr=%08X daddr=%08X sptch=%08X dptch=%08X\n", saddr, daddr, SPTCH(), DPTCH())); /* bail if we're clipped */ if (dx <= 0 || dy <= 0) return; /* window mode 1: just return and interrupt if we are within the window */ if (WINDOW_CHECKING() == 1 && !dst_is_linear) { CLR_V(); DADDR_XY() = dstxy; DYDX_X() = dx; DYDX_Y() = dy; IOREG(REG_INTPEND) |= TMS34010_WV; check_interrupt(); return; } /* handle flipping the addresses */ yreverse = (IOREG(REG_CONTROL) >> 9) & 1; if (!src_is_linear || !dst_is_linear) { saddr += dx * BITS_PER_PIXEL; daddr += dx * BITS_PER_PIXEL; if (yreverse) { saddr += (dy - 1) * m_convsp; daddr += (dy - 1) * m_convdp; } } m_st |= STBIT_P; /* loop over rows */ for (y = 0; y < dy; y++) { int left_partials, right_partials, full_words, bitshift, bitshift_alt; UINT16 srcword, srcmask, dstword, dstmask, pixel; UINT32 swordaddr, dwordaddr; /* determine the bit shift to get from source to dest */ bitshift = ((daddr & 15) - (saddr & 15)) & 15; bitshift_alt = (16 - bitshift) & 15; /* how many left and right partial pixels do we have? */ left_partials = (PIXELS_PER_WORD - (((daddr - dx * BITS_PER_PIXEL) & 15) / BITS_PER_PIXEL)) & (PIXELS_PER_WORD - 1); right_partials = (daddr & 15) / BITS_PER_PIXEL; full_words = dx - left_partials - right_partials; if (full_words < 0) right_partials = dx, left_partials = full_words = 0; else full_words /= PIXELS_PER_WORD; /* compute cycles */ m_gfxcycles += compute_pixblt_cycles(left_partials, right_partials, full_words, PIXEL_OP_TIMING); /* use word addresses each row */ swordaddr = (saddr + 15) >> 4; dwordaddr = (daddr + 15) >> 4; /* fetch the initial source word */ srcword = (this->*word_read)(*m_program, --swordaddr << 1); srcmask = PIXEL_MASK << ((saddr - BITS_PER_PIXEL) & 15); /* handle the right partial word */ if (right_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, --dwordaddr << 1); dstmask = PIXEL_MASK << ((daddr - BITS_PER_PIXEL) & 15); /* loop over partials */ for (x = 0; x < right_partials; x++) { /* fetch source pixel if necessary */ if (srcmask == 0) { srcword = (this->*word_read)(*m_program, --swordaddr << 1); srcmask = PIXEL_MASK << (16 - BITS_PER_PIXEL); } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; #if (BITS_PER_PIXEL<16) /* update the source */ srcmask >>= BITS_PER_PIXEL; /* update the destination */ dstmask >>= BITS_PER_PIXEL; #else srcmask = 0; dstmask = 0; #endif } /* write the result */ (this->*word_write)(*m_program, dwordaddr << 1, dstword); } /* loop over full words */ for (words = 0; words < full_words; words++) { /* fetch the destination word (if necessary) */ dwordaddr--; if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY) dstword = (this->*word_read)(*m_program, dwordaddr << 1); else dstword = 0; dstmask = PIXEL_MASK << (16 - BITS_PER_PIXEL); /* loop over partials */ for (x = 0; x < PIXELS_PER_WORD; x++) { /* fetch source pixel if necessary */ if (srcmask == 0) { srcword = (this->*word_read)(*m_program, --swordaddr << 1); srcmask = PIXEL_MASK << (16 - BITS_PER_PIXEL); } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; #if (BITS_PER_PIXEL<16) /* update the source */ srcmask >>= BITS_PER_PIXEL; /* update the destination */ dstmask >>= BITS_PER_PIXEL; #else srcmask = 0; dstmask = 0; #endif } /* write the result */ (this->*word_write)(*m_program, dwordaddr << 1, dstword); } /* handle the left partial word */ if (left_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, --dwordaddr << 1); dstmask = PIXEL_MASK << (16 - BITS_PER_PIXEL); /* loop over partials */ for (x = 0; x < left_partials; x++) { /* fetch the source pixel if necessary */ if (srcmask == 0) { srcword = (this->*word_read)(*m_program, --swordaddr << 1); srcmask = PIXEL_MASK << (16 - BITS_PER_PIXEL); } /* process the pixel */ pixel = srcword & srcmask; if (dstmask > srcmask) pixel <<= bitshift; else pixel >>= bitshift_alt; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; #if (BITS_PER_PIXEL<16) /* update the source */ srcmask >>= BITS_PER_PIXEL; /* update the destination */ dstmask >>= BITS_PER_PIXEL; #else srcmask = 0; dstmask = 0; #endif } /* write the result */ (this->*word_write)(*m_program, dwordaddr << 1, dstword); } /* update for next row */ if (!yreverse) { saddr += SPTCH(); daddr += DPTCH(); } else { saddr -= SPTCH(); daddr -= DPTCH(); } } LOGGFX((" (%d cycles)\n", m_gfxcycles)); } /* eat cycles */ if (m_gfxcycles > m_icount) { m_gfxcycles -= m_icount; m_icount = 0; m_pc -= 0x10; } else { m_icount -= m_gfxcycles; m_st &= ~STBIT_P; if (src_is_linear && dst_is_linear) SADDR() += DYDX_Y() * SPTCH(); else if (src_is_linear) SADDR() += DYDX_Y() * SPTCH(); else SADDR_Y() += DYDX_Y(); if (dst_is_linear) DADDR() += DYDX_Y() * DPTCH(); else DADDR_Y() += DYDX_Y(); } } void FUNCTION_NAME(tms340x0_device::pixblt_b)(int dst_is_linear) { /* if this is the first time through, perform the operation */ if (!P_FLAG()) { int dx, dy, x, y, words, left_partials, right_partials, full_words; word_write_func word_write; word_read_func word_read; UINT32 saddr, daddr; XY dstxy = { 0 }; /* determine read/write functions */ if (IOREG(REG_DPYCTL) & 0x0800) { word_write = &tms340x0_device::shiftreg_w; word_read = &tms340x0_device::shiftreg_r; } else { word_write = &tms340x0_device::memory_w; word_read = &tms340x0_device::memory_r; } /* compute the starting addresses */ saddr = SADDR(); /* compute the bounds of the operation */ dx = (INT16)DYDX_X(); dy = (INT16)DYDX_Y(); /* apply the window for non-linear destinations */ m_gfxcycles = 4; if (!dst_is_linear) { dstxy = DADDR_XY(); m_gfxcycles += 2 + apply_window("PIXBLT B", 1, &saddr, &dstxy, &dx, &dy); daddr = DXYTOL(dstxy); } else daddr = DADDR(); daddr &= ~(BITS_PER_PIXEL - 1); LOGGFX((" saddr=%08X daddr=%08X sptch=%08X dptch=%08X\n", saddr, daddr, SPTCH(), DPTCH())); /* bail if we're clipped */ if (dx <= 0 || dy <= 0) return; /* window mode 1: just return and interrupt if we are within the window */ if (WINDOW_CHECKING() == 1 && !dst_is_linear) { CLR_V(); DADDR_XY() = dstxy; DYDX_X() = dx; DYDX_Y() = dy; IOREG(REG_INTPEND) |= TMS34010_WV; check_interrupt(); return; } /* how many left and right partial pixels do we have? */ left_partials = (PIXELS_PER_WORD - ((daddr & 15) / BITS_PER_PIXEL)) & (PIXELS_PER_WORD - 1); right_partials = ((daddr + dx * BITS_PER_PIXEL) & 15) / BITS_PER_PIXEL; full_words = dx - left_partials - right_partials; if (full_words < 0) left_partials = dx, right_partials = full_words = 0; else full_words /= PIXELS_PER_WORD; /* compute cycles */ m_gfxcycles += compute_pixblt_b_cycles(left_partials, right_partials, full_words, dy, PIXEL_OP_TIMING, BITS_PER_PIXEL); m_st |= STBIT_P; /* loop over rows */ for (y = 0; y < dy; y++) { UINT16 srcword, srcmask, dstword, dstmask, pixel; UINT32 swordaddr, dwordaddr; /* use byte addresses each row */ swordaddr = saddr >> 4; dwordaddr = daddr >> 4; /* fetch the initial source word */ srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = 1 << (saddr & 15); /* handle the left partial word */ if (left_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK << (daddr & 15); /* loop over partials */ for (x = 0; x < left_partials; x++) { /* process the pixel */ pixel = (srcword & srcmask) ? COLOR1() : COLOR0(); pixel &= dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= 1; if (srcmask == 0) { srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = 0x0001; } /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* loop over full words */ for (words = 0; words < full_words; words++) { /* fetch the destination word (if necessary) */ if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY) dstword = (this->*word_read)(*m_program, dwordaddr << 1); else dstword = 0; dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < PIXELS_PER_WORD; x++) { /* process the pixel */ pixel = (srcword & srcmask) ? COLOR1() : COLOR0(); pixel &= dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= 1; if (srcmask == 0) { srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = 0x0001; } /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* handle the right partial word */ if (right_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < right_partials; x++) { /* process the pixel */ pixel = (srcword & srcmask) ? COLOR1() : COLOR0(); pixel &= dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the source */ srcmask <<= 1; if (srcmask == 0) { srcword = (this->*word_read)(*m_program, swordaddr++ << 1); srcmask = 0x0001; } /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* update for next row */ saddr += SPTCH(); daddr += DPTCH(); } LOGGFX((" (%d cycles)\n", m_gfxcycles)); } /* eat cycles */ if (m_gfxcycles > m_icount) { m_gfxcycles -= m_icount; m_icount = 0; m_pc -= 0x10; } else { m_icount -= m_gfxcycles; m_st &= ~STBIT_P; SADDR() += DYDX_Y() * SPTCH(); if (dst_is_linear) DADDR() += DYDX_Y() * DPTCH(); else DADDR_Y() += DYDX_Y(); } } void FUNCTION_NAME(tms340x0_device::fill)(int dst_is_linear) { /* if this is the first time through, perform the operation */ if (!P_FLAG()) { int dx, dy, x, y, words, left_partials, right_partials, full_words; word_write_func word_write; word_read_func word_read; UINT32 daddr; XY dstxy = { 0 }; /* determine read/write functions */ if (IOREG(REG_DPYCTL) & 0x0800) { word_write = &tms340x0_device::shiftreg_w; word_read = &tms340x0_device::dummy_shiftreg_r; } else { word_write = &tms340x0_device::memory_w; word_read = &tms340x0_device::memory_r; } /* compute the bounds of the operation */ dx = (INT16)DYDX_X(); dy = (INT16)DYDX_Y(); /* apply the window for non-linear destinations */ m_gfxcycles = 4; if (!dst_is_linear) { dstxy = DADDR_XY(); m_gfxcycles += 2 + apply_window("FILL", 0, NULL, &dstxy, &dx, &dy); daddr = DXYTOL(dstxy); } else daddr = DADDR(); daddr &= ~(BITS_PER_PIXEL - 1); LOGGFX((" daddr=%08X\n", daddr)); /* bail if we're clipped */ if (dx <= 0 || dy <= 0) return; /* window mode 1: just return and interrupt if we are within the window */ if (WINDOW_CHECKING() == 1 && !dst_is_linear) { CLR_V(); DADDR_XY() = dstxy; DYDX_X() = dx; DYDX_Y() = dy; IOREG(REG_INTPEND) |= TMS34010_WV; check_interrupt(); return; } /* how many left and right partial pixels do we have? */ left_partials = (PIXELS_PER_WORD - ((daddr & 15) / BITS_PER_PIXEL)) & (PIXELS_PER_WORD - 1); right_partials = ((daddr + dx * BITS_PER_PIXEL) & 15) / BITS_PER_PIXEL; full_words = dx - left_partials - right_partials; if (full_words < 0) left_partials = dx, right_partials = full_words = 0; else full_words /= PIXELS_PER_WORD; /* compute cycles */ m_gfxcycles += 2; m_st |= STBIT_P; /* loop over rows */ for (y = 0; y < dy; y++) { UINT16 dstword, dstmask, pixel; UINT32 dwordaddr; /* use byte addresses each row */ dwordaddr = daddr >> 4; /* compute cycles */ m_gfxcycles += compute_fill_cycles(left_partials, right_partials, full_words, PIXEL_OP_TIMING); /* handle the left partial word */ if (left_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK << (daddr & 15); /* loop over partials */ for (x = 0; x < left_partials; x++) { /* process the pixel */ pixel = COLOR1() & dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* loop over full words */ for (words = 0; words < full_words; words++) { /* fetch the destination word (if necessary) */ if (PIXEL_OP_REQUIRES_SOURCE || TRANSPARENCY) dstword = (this->*word_read)(*m_program, dwordaddr << 1); else dstword = 0; dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < PIXELS_PER_WORD; x++) { /* process the pixel */ pixel = COLOR1() & dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* handle the right partial word */ if (right_partials != 0) { /* fetch the destination word */ dstword = (this->*word_read)(*m_program, dwordaddr << 1); dstmask = PIXEL_MASK; /* loop over partials */ for (x = 0; x < right_partials; x++) { /* process the pixel */ pixel = COLOR1() & dstmask; PIXEL_OP(dstword, dstmask, pixel); if (!TRANSPARENCY || pixel != 0) dstword = (dstword & ~dstmask) | pixel; /* update the destination */ dstmask = dstmask << BITS_PER_PIXEL; } /* write the result */ (this->*word_write)(*m_program, dwordaddr++ << 1, dstword); } /* update for next row */ daddr += DPTCH(); } LOGGFX((" (%d cycles)\n", m_gfxcycles)); } /* eat cycles */ if (m_gfxcycles > m_icount) { m_gfxcycles -= m_icount; m_icount = 0; m_pc -= 0x10; } else { m_icount -= m_gfxcycles; m_st &= ~STBIT_P; if (dst_is_linear) DADDR() += DYDX_Y() * DPTCH(); else DADDR_Y() += DYDX_Y(); } } #endif