-- Copyright (C) 2002 Morgan Kaufmann Publishers, Inc -- This file is part of VESTs (Vhdl tESTs). -- VESTs is free software; you can redistribute it and/or modify it -- under the terms of the GNU General Public License as published by the -- Free Software Foundation; either version 2 of the License, or (at -- your option) any later version. -- VESTs is distributed in the hope that it will be useful, but WITHOUT -- ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or -- FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License -- for more details. -- You should have received a copy of the GNU General Public License -- along with VESTs; if not, write to the Free Software Foundation, -- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA entity inline_01a is end entity inline_01a; ---------------------------------------------------------------- architecture test of inline_01a is begin section_1_a : process is -- code from book: constant number_of_bytes : integer := 4; constant number_of_bits : integer := 8 * number_of_bytes; constant e : real := 2.718281828; constant prop_delay : time := 3 ns; constant q : real := 1.60218E-19; constant resistivity : real := 2.5E5; -- variable index : integer := 0; variable temperature : real; variable start, finish : time := 0 ns; -- end of code from book begin wait; end process section_1_a; ---------------- section_1_b : process is -- code from book: variable start : time := 0 ns; variable finish : time := 0 ns; -- end of code from book variable program_counter : integer; variable index : integer; variable resonance_frequency : real; constant L, C : real := 0.0; begin -- code from book: program_counter := 0; index := index + 1; resonance_frequency := L * C; -- end of code from book wait; end process section_1_b; ---------------- section_2_a : process is -- code from book: type apples is range 0 to 100; type oranges is range 0 to 100; -- type day_of_month is range 0 to 31; type year is range 0 to 2100; variable today : day_of_month := 9; variable start_year : year := 1987; -- constant number_of_bits : integer := 32; type bit_index is range 0 to number_of_bits - 1; -- type set_index_range is range 21 downto 11; type mode_pos_range is range 5 to 7; variable set_index : set_index_range; variable mode_pos : mode_pos_range; -- type input_level is range -10.0 to +10.0; type probability is range 0.0 to 1.0; -- variable input_A : input_level; -- end of code from book begin -- code from book: -- error: Incompatible types for assignment -- start_year := today; -- end of code from book wait; end process section_2_a; ---------------- section_2_b : process is -- code from book: type resistance is range 0 to 1E9 units ohm; end units resistance; -- end of code from book begin wait; end process section_2_b; ---------------- section_2_c : process is -- code from book: type resistance is range 0 to 1E9 units ohm; kohm = 1000 ohm; Mohm = 1000 kohm; end units resistance; -- end of code from book begin wait; end process section_2_c; ---------------- section_2_d : process is -- code from book: type length is range 0 to 1E9 units um; -- primary unit: micron mm = 1000 um; -- metric units m = 1000 mm; inch = 25400 um; -- imperial units foot = 12 inch; end units length; -- end of code from book begin wait; end process section_2_d; ---------------- section_2_e : process is -- code from book: -- type time is range implementation_defined type time is range integer'low to integer'high units fs; ps = 1000 fs; ns = 1000 ps; us = 1000 ns; ms = 1000 us; sec = 1000 ms; min = 60 sec; hr = 60 min; end units; -- end of code from book begin wait; end process section_2_e; ---------------- section_2_f : process is -- code from book: type transistor_region is (linear, saturation); -- type octal_digit is ('0', '1', '2', '3', '4', '5', '6', '7'); -- variable transistor_state : transistor_region; variable last_digit : octal_digit := '0'; -- type logic_level is (unknown, low, undriven, high); variable control : logic_level; type water_level is (dangerously_low, low, ok); variable water_sensor : water_level; -- end of code from book begin -- code from book: transistor_state := linear; last_digit := '7'; -- control := low; water_sensor := low; -- end of code from book wait; end process section_2_f; ---------------- section_2_g : process is -- code from book: type severity_level is (note, warning, error, failure); type file_open_status is (open_ok, status_error, name_error, mode_error); type file_open_kind is (read_mode, write_mode, append_mode); type domain_type is (quiescent_domain, time_domain, frequency_domain); -- end of code from book begin wait; end process section_2_g; ---------------- section_2_g1 : process is -- code from book: type character is ( nul, soh, stx, etx, eot, enq, ack, bel, bs, ht, lf, vt, ff, cr, so, si, dle, dc1, dc2, dc3, dc4, nak, syn, etb, can, em, sub, esc, fsp, gsp, rsp, usp, ' ', '!', '"', '#', '$', '%', '&', ''', '(', ')', '*', '+', ',', '-', '.', '/', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', ':', ';', '<', '=', '>', '?', '@', 'A', 'B', 'C', 'D', 'E', 'F', 'G', 'H', 'I', 'J', 'K', 'L', 'M', 'N', 'O', 'P', 'Q', 'R', 'S', 'T', 'U', 'V', 'W', 'X', 'Y', 'Z', '[', '\', ']', '^', '_', '`', 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '{', '|', '}', '~', DEL, c128, c129, c130, c131, c132, c133, c134, c135, c136, c137, c138, c139, c140, c141, c142, c143, c144, c145, c146, c147, c148, c149, c150, c151, c152, c153, c154, c155, c156, c157, c158, c159, ' ', '¡', '¢', '£', '¤', '¥', '¦', '§', '¨', '©', 'ª', '«', '¬', '­', '®', '¯', '°', '±', '²', '³', '´', 'µ', '¶', '·', '¸', '¹', 'º', '»', '¼', '½', '¾', '¿', 'À', 'Á', 'Â', 'Ã', 'Ä', 'Å', 'Æ', 'Ç', 'È', 'É', 'Ê', 'Ë', 'Ì', 'Í', 'Î', 'Ï', 'Ð', 'Ñ', 'Ò', 'Ó', 'Ô', 'Õ', 'Ö', '×', 'Ø', 'Ù', 'Ú', 'Û', 'Ü', 'Ý', 'Þ', 'ß', 'à', 'á', 'â', 'ã', 'ä', 'å', 'æ', 'ç', 'è', 'é', 'ê', 'ë', 'ì', 'í', 'î', 'ï', 'ð', 'ñ', 'ò', 'ó', 'ô', 'õ', 'ö', '÷', 'ø', 'ù', 'ú', 'û', 'ü', 'ý', 'þ', 'ÿ'); -- end of code from book begin wait; end process section_2_g1; ---------------- section_2_h : process is -- code from book: variable cmd_char, terminator : character; -- end of code from book begin -- code from book: cmd_char := 'P'; terminator := cr; -- end of code from book wait; end process section_2_h; ---------------- section_2_i : process is -- code from book: type boolean is (false, true); -- type bit is ('0', '1'); -- end of code from book begin wait; end process section_2_i; ---------------- section_2_j : process is variable write_enable_n, select_reg_n, write_reg_n : bit; begin -- code from book: write_reg_n := not ( not write_enable_n and not select_reg_n ); -- end of code from book wait; end process section_2_j; ---------------- section_2_k : process is -- code from book: type std_ulogic is ( 'U', -- Uninitialized 'X', -- Forcing Unknown '0', -- Forcing zero '1', -- Forcing one 'Z', -- High Impedance 'W', -- Weak Unknown 'L', -- Weak zero 'H', -- Weak one '-' ); -- Don't care -- end of code from book begin wait; end process section_2_k; ---------------- section_3_a : process is -- code from book: subtype small_int is integer range -128 to 127; -- variable deviation : small_int; variable adjustment : integer; -- subtype bit_index is integer range 31 downto 0; -- end of code from book begin deviation := 0; adjustment := 0; -- code from book: deviation := deviation + adjustment; -- end of code from book wait; end process section_3_a; ---------------- section_3_b : process is constant highest_integer : integer := integer'high; constant highest_time : time := time'high; -- code from book: subtype pressure is real tolerance "default_pressure"; -- subtype natural is integer range 0 to highest_integer; subtype positive is integer range 1 to highest_integer; -- subtype delay_length is time range 0 fs to highest_time; -- end of code from book begin wait; end process section_3_b; ---------------- section_3_c : process is -- code from book: type logic_level is (unknown, low, undriven, high); type transistor_state is (unknown, unsaturated, saturated); -- subtype valid_level is logic_level range low to high; -- end of code from book begin wait; end process section_3_c; ---------------- section_4_a : block is -- code from book: subtype voltage is real tolerance "default_voltage"; subtype current is real tolerance "default_current"; nature electrical is voltage across current through electrical_ref reference; -- terminal in_plus, in_minus, preamp_out : electrical; -- quantity signal_level across in_plus to in_minus; quantity output_level across output_current through preamp_out; -- end of code from book begin end block section_4_a; ---------------- section_4_b : block is -- code from book: subtype temperature is real tolerance "default_temperature"; subtype heat_flow is real tolerance "default_heat_flow"; subtype cryo_temp is real tolerance "default_temperature"; subtype cryo_flow is real tolerance "default_heat_flow"; nature thermal is temperature across heat_flow through thermal_ref reference; nature cryogenic is cryo_temp across cryo_flow through cryo_ref reference; -- subtype illuminance is real tolerance "default_illuminance"; subtype optic_flux is real tolerance "default_optic_flux"; nature radiant is illuminance across optic_flux through radiant_ref reference; -- end of code from book begin end block section_4_b; ---------------- section_4_c : block is subtype voltage is real tolerance "default_voltage"; subtype current is real tolerance "default_current"; nature electrical is voltage across current through electrical_ref reference; -- code from book: subnature coarse_electrical is electrical tolerance "coarse_voltage" across "coarse_current" through; terminal supply_plus, supply_minus : coarse_electrical; terminal bias : electrical; quantity bias_pullup_v across supply_plus to bias; quantity bias_pulldown_v across bias to supply_minus; -- end of code from book begin end block section_4_c; ---------------- section_5_a : process is -- code from book: type resistance is range 0 to 1E9 units ohm; kohm = 1000 ohm; Mohm = 1000 kohm; end units resistance; type set_index_range is range 21 downto 11; type logic_level is (unknown, low, undriven, high); -- end of code from book begin -- output from vsim: "2000" report resistance'image(2 kohm); -- code from book: assert resistance'left = 0 ohm; assert resistance'right = 1E9 ohm; assert resistance'low = 0 ohm; assert resistance'high = 1E9 ohm; assert resistance'ascending = true; assert resistance'image(2 kohm) = "2000 ohm"; assert resistance'value("5 Mohm") = 5_000_000 ohm; assert set_index_range'left = 21; assert set_index_range'right = 11; assert set_index_range'low = 11; assert set_index_range'high = 21; assert set_index_range'ascending = false; assert set_index_range'image(14) = "14"; assert set_index_range'value("20") = 20; assert logic_level'left = unknown; assert logic_level'right = high; assert logic_level'low = unknown; assert logic_level'high = high; assert logic_level'ascending = true; assert logic_level'image(undriven) = "undriven"; assert logic_level'value("Low") = low; -- assert logic_level'pos(unknown) = 0; assert logic_level'val(3) = high; assert logic_level'succ(unknown) = low; assert logic_level'pred(undriven) = low; -- assert time'pos(4 ns) = 4_000_000; -- end of code from book wait; end process section_5_a; ---------------- section_5_b : process is -- code from book: type length is range integer'low to integer'high units mm; end units length; type area is range integer'low to integer'high units square_mm; end units area; -- variable L1, L2 : length; variable A : area; -- end of code from book begin -- code from book: -- error: No feasible entries for infix op: "*" -- A := L1 * L2; -- this is incorrect -- A := area'val( length'pos(L1) * length'pos(L2) ); -- end of code from book wait; end process section_5_b; ---------------- section_5_c : process is -- code from book: subtype voltage is real tolerance "default_voltage"; subtype high_current is real tolerance "coarse_current"; -- type gear is (unknown, park, reverse, neutral, first, second, third, fourth, fifth); subtype forward is gear range first to fifth; -- end of code from book begin -- code from book: assert voltage'tolerance = "default_voltage"; assert high_current'tolerance = "coarse_current"; -- assert forward'base'left = unknown; assert forward'base'succ(reverse) = neutral; -- end of code from book wait; end process section_5_c; ---------------- section_5_d : block is -- code from book: subtype displacement is real tolerance "default_displacement"; subtype force is real tolerance "default_force"; nature translational is displacement across force through translational_ref reference; -- quantity qdisp : translational'across; -- declares quantity of type displacement quantity qforce : translational'through; -- declares quantity of type force -- end of code from book begin end block section_5_d; end architecture test;